IMAGeS team: IMages, leArning, Geometry and Statistics wiki_images_en https://images.icube.unistra.fr/en/index.php?title=Accueil MediaWiki 1.39.7 first-letter Média Spécial Discussion Utilisateur Discussion utilisateur IMAGeS team: IMages, leArning, Geometry and Statistics Discussion IMAGeS team: IMages, leArning, Geometry and Statistics Fichier Discussion fichier MediaWiki Discussion MediaWiki Modèle Discussion modèle Aide Discussion aide Catégorie Discussion catégorie Intranet Intanet talk Group1 Group1 talk Group2 Group2 talk Group3 Group3 talk Workspace Workspace talk Gadget Discussion gadget Définition de gadget Discussion définition de gadget 0 1 1 2012-12-21T09:00:47Z MediaWiki default 0 wikitext text/x-wiki '''MediaWiki has been successfully installed.''' Consult the [//meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [//www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [//www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [https://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b7a3846f2c55072191227d89a3204fe379288fee 8 2 2 2012-12-21T09:22:29Z Admin 1 Created page with " * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** ..." wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Medical image processing|Medical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ERC FBrain|ERC FBrain ** ANR Dahlia|ANR Dahlia ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 80fd25af47737f367cc55ea8b5cad91af8ec4c9c 44 2 2013-01-21T09:26:11Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Medical image processing|Medical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ERC FBrain|ERC FBrain ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV c00d72a56f9ab931570987e3bdaaac647fa7cfc0 0 3 3 2012-12-21T09:56:49Z Admin 1 Created page with "Welcome Home [[fr:Accueil]]" wikitext text/x-wiki Welcome Home [[fr:Accueil]] 87b325102b8579b2dbffcb9c20e01ecdc22db541 4 3 2012-12-21T10:02:55Z Admin 1 wikitext text/x-wiki Welcome Home [[en:Accueil]] 6eed37a625250cb353daf4b9967f8cc5cfed3a34 5 4 2012-12-21T10:03:07Z Admin 1 wikitext text/x-wiki Welcome Home [[fr:Accueil]] 87b325102b8579b2dbffcb9c20e01ecdc22db541 6 5 2012-12-21T16:33:47Z Mazet 3 wikitext text/x-wiki '''The website of the team is in progress!''' Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : développement de géométries discrètes et de modèles topologiques adaptés à l'analyse et à la synthèse d'images, et élaboration de nouveaux opérateurs morphologiques en traitement d'images. Notre objectif est de bâtir une algorithmique robuste et performante en imagerie et de développer des outils purement discrets pour étudier les propriétés différentielles, géométriques, topologiques et morphologiques des objets, pour des applications en segmentation de structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 709503c99da93b2fa9843d1c18904ec580443433 0 4 7 2012-12-21T16:36:51Z Mazet 3 Created page with " {| class="wikitable sortable" |- ! Webpage !! Name !! Firstname !! Statut !! Office !! Phone !! 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Webpage !! Name !! Firstname !! Statut !! Office !! Phone !! E-mail |- | [[Fiche]] || ABDMOULEH || Fatma || PhD Student || || || |- | [[Fiche]] || BAUDRIER || Etienne || Assistant Professor || || || |- | [[Fiche]] || BENTAIEB || Aicha || Research Engineer || || || |- | [[Fiche]] || BOUBCHIR || Larbi|| Post-doc || || || |- | [[Fiche]] || BOUCHON || Alix || PhD Student || || || |- | [[Fiche]] || BOUTHILLON || Marine || PhD Student || || || |- | [[Fiche]] || CHAMP || Frédéric || Research Engineer || || || |- | [[Fiche]] || COLLET || Christophe || Professor || || || |- | [[Fiche]] || DA COL-JACOB || Marie-andrée || Assistant Professor || || || |- | [[Fiche]] || DUFOUR || Alice || PhD Student || || || |- | [[Fiche]] || FAISAN || Sylvain || Assistant Professor || || || |- | [[Fiche]] || GAUDEAU || Yann || Assistant Professor || || || |- | [[Fiche]] || GKAMAS || Theodosios || PhD Student || || || |- | [[Fiche]] || GRIGIS || Antoine || Post-doc || || || |- | [[Fiche]] || HANNACHI || Ammar || PhD Student || || || |- | [[Fiche]] || HEINRICH || Christian || Professor || || || |- | [[Fiche]] || HEITZ || Fabrice || Professor || || || |- | [[Fiche]] || HIRSCH || Ernest|| Professor || || || |- | [[Fiche]] || KHOSHNOUDIRAD || Balal daniel || PhD Student || || || |- | [[Fiche]] || LALLEMENT || Alex || Assistant Professor || || || |- | [[Fiche]] || LAVIGNE || François || PhD Student || || || |- | [[Fiche]] || LOUYS || Mireille || Assistant Professor || || || |- | [[Vincent Mazet|Fiche]] || Mazet || Vincent || Assistant Professor || C219 || +33 3 68 85 44 91 || |- | [[Fiche]] || MAZO || Loïc || Assistant Professor || || || |- | [[Fiche]] || MEFFRE || Alban || PhD Student || || || |- | [[Fiche]] || NAEGEL || Benoît || Assistant Professor || || || |- | [[Fiche]] || NGO || Tran Thanh || PhD Student || || || |- | [[Vincent_Noblet|Fiche]] || NOBLET || Vincent || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Fiche]] || PHAN || Minh Son || PhD Student || || || |- | [[Fiche]] || PONTABRY || Julien || PhD Student || || || |- | [[Fiche]] || RONSE || Christian || Professor || || || |- | [[Fiche]] || ROUSSEAU || François || Research Scientist || || || |- | [[Fiche]] || SCHWEITZER || Marc || Research Engineer || || || |- | [[Fiche]] || TAJINE || Mohamed || Professor || || || |- | [[Fiche]] || THORAVAL || Laurent || Assistant Professor || || || |} [[fr:Membres]] cf499dd45f1f98bf0f01d2790bec1c2f8ef16fc1 33 23 2013-01-10T10:59:09Z Mazet 3 wikitext text/x-wiki {| class="wikitable sortable" |- ! Webpage !! Name !! Firstname !! Statut !! Office !! Phone !! E-mail |- | [[Fiche]] || ABDMOULEH || Fatma || PhD Student || || || |- | [[Fiche]] || BAUDRIER || Etienne || Assistant Professor || || || |- | [[Fiche]] || BENTAIEB || Aicha || Research Engineer || || || |- | [[Fiche]] || BOUBCHIR || Larbi|| Post-doc || || || |- | [[Fiche]] || BOUCHON || Alix || PhD Student || || || |- | [[Fiche]] || BOUTHILLON || Marine || PhD Student || || || |- | [[Fiche]] || CHAMP || Frédéric || Research Engineer || || || |- | [[Fiche]] || COLLET || Christophe || Professor || || || |- | [[Fiche]] || DA COL-JACOB || Marie-andrée || Assistant Professor || || || |- | [[Fiche]] || DUFOUR || Alice || PhD Student || || || |- | [[Fiche]] || FAISAN || Sylvain || Assistant Professor || || || |- | [[Fiche]] || GKAMAS || Theodosios || PhD Student || || || |- | [[Fiche]] || GRIGIS || Antoine || Post-doc || || || |- | [[Fiche]] || HANNACHI || Ammar || PhD Student || || || |- | [[Fiche]] || HEINRICH || Christian || Professor || || || |- | [[Fiche]] || HEITZ || Fabrice || Professor || || || |- | [[Fiche]] || HIRSCH || Ernest|| Professor || || || |- | [[Fiche]] || KHOSHNOUDIRAD || Balal daniel || PhD Student || || || |- | [[Fiche]] || LALLEMENT || Alex || Assistant Professor || || || |- | [[Fiche]] || LAVIGNE || François || PhD Student || || || |- | [[Fiche]] || LOUYS || Mireille || Assistant Professor || || || |- | [[Vincent Mazet|Fiche]] || MAZET || Vincent || Assistant Professor || C219 || +33 3 68 85 44 91 || |- | [[Fiche]] || MAZO || Loïc || Assistant Professor || || || |- | [[Fiche]] || MEFFRE || Alban || PhD Student || || || |- | [[Fiche]] || NAEGEL || Benoît || Assistant Professor || || || |- | [[Fiche]] || NGO || Tran Thanh || PhD Student || || || |- | [[Vincent_Noblet|Fiche]] || NOBLET || Vincent || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Fiche]] || PHAN || Minh Son || PhD Student || || || |- | [[Fiche]] || PONTABRY || Julien || PhD Student || || || |- | [[Fiche]] || RONSE || Christian || Professor || || || |- | [[Fiche]] || ROUSSEAU || François || Research Scientist || || || |- | [[Fiche]] || SCHWEITZER || Marc || Research Engineer || || || |- | [[Fiche]] || TAJINE || Mohamed || Professor || || || |- | [[Fiche]] || THORAVAL || Laurent || Assistant Professor || || || |} [[fr:Membres]] c9a08e39fd2629dfa198d92aec57a8075c35b65c 43 33 2013-01-17T09:55:45Z Mazet 3 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | BOUBCHIR Larbi|| Post-PhD student || || || |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | MAZO Loïc || Associate professor || || || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | RONSE Christian || Professor || || || |- | ROUSSEAU François || Research scientist || || || |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] c82a9b925b20f689909f8db32cb5c669e8003c29 0 5 8 2012-12-21T16:39:46Z Mazet 3 Created page with "[[Fichier:VincentMazet.png|right|200px]] Assistant Professor Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch Cedex - France<br /> Phone: +33 (0..." wikitext text/x-wiki [[Fichier:VincentMazet.png|right|200px]] Assistant Professor Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch Cedex - France<br /> Phone: +33 (0)3 68 85 44 91<br /> Fax: +33 (0)3 68 85 44 55<br /> Office: C219<br /> E-mail:<br /> Website: http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm 3c1bd375319b558a001e8c5f1917ee5a04700d12 29 8 2013-01-09T11:19:32Z Mazet 3 wikitext text/x-wiki [[Fichier:VincentMazet.png|right|200px]] Assistant Professor 300 boulevard Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch Cedex - France<br /> Phone: +33 (0)3 68 85 44 91<br /> Fax: +33 (0)3 68 85 44 55<br /> Office: C219<br /> E-mail :<br /> Website : http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm [[fr:Vincent Mazet]] 57e75a5f345c996a827cf9bf7093087c5f71588a 31 29 2013-01-09T11:21:48Z Mazet 3 wikitext text/x-wiki [[File:VincentMazet.png|right|200px]] Assistant Professor 300 boulevard Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch Cedex - France<br /> Phone: +33 3 68 85 44 91<br /> Fax: +33 3 68 85 44 55<br /> Office: C219<br /> E-mail :<br /> Website : http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm [[fr:Vincent Mazet]] 653818dc23b5201a4b494ea0b69b3316912624e1 48 31 2013-01-23T08:51:22Z Mazet 3 wikitext text/x-wiki [[File:VincentMazet.png|right|200px]] Assistant Professor 300 boulevard Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch Cedex - France<br /> Phone: +33 3 68 85 44 91<br /> Fax: +33 3 68 85 44 55<br /> Office: C219<br /> E-mail :<br /> Website : http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> [[fr:Vincent Mazet]] c9f748ebb338e01e8c8dd213e7a27107190966d9 49 48 2013-01-23T08:51:51Z Mazet 3 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[Fichier:VincentMazet.png|frameless|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] 1bfa15be0b18fd6a3a5db56d86b7fe9aab50bb4e 50 49 2013-01-23T08:52:22Z Mazet 3 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[File:VincentMazet.png|frameless|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] 48d428cfb402dfaee2b753a534ea624197799ce9 0 6 9 2013-01-08T13:48:12Z Noblet 4 Created page with "{{subst:Modèle:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(d..." wikitext text/x-wiki {{subst:Modèle:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(dot)noblet(at)unistra(dot)fr | url = http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html | urlpubli=http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0}} 2cece726205818231ba31a8060cad07882c527b6 10 9 2013-01-08T13:49:18Z Noblet 4 wikitext text/x-wiki [[fr:VincentNoblet]] {{subst:Modèle:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(dot)noblet(at)unistra(dot)fr | url = http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html | urlpubli=http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0}} 3447ac23442fdea6ac14ca3399c054d59f29b4f8 12 10 2013-01-08T13:52:56Z Noblet 4 wikitext text/x-wiki [[fr:VincentNoblet]] {{subst:Template:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(dot)noblet(at)unistra(dot)fr | url = http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html | urlpubli=http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0}} a9f2594575bdabada40da3bd07f0b7fd2fcfdb65 15 12 2013-01-08T13:54:46Z Noblet 4 wikitext text/x-wiki [[fr:VincentNoblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 1af87aa23b97c210f89a47ef723cc87c13c1e25d 17 15 2013-01-08T13:58:26Z Noblet 4 /* Publications */ wikitext text/x-wiki [[fr:VincentNoblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> bf1bfa3bd4747d28b534d19dd849ca7dca17d120 18 17 2013-01-08T14:00:47Z Noblet 4 Noblet moved page [[VincentNoblet]] to [[Vincent Noblet]] wikitext text/x-wiki [[fr:VincentNoblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> bf1bfa3bd4747d28b534d19dd849ca7dca17d120 21 18 2013-01-08T14:02:46Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 64794b5196d1703e624297c1278276c025340724 22 21 2013-01-08T14:03:01Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 42ca01136de19c553cffa0aab3168a4185805c61 25 22 2013-01-08T15:15:14Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 946345fdd65afd87887ebbdf3e55a3ee5e8755d0 26 25 2013-01-08T15:15:28Z Noblet 4 /* Publications */ wikitext text/x-wiki [[fr:Vincent_Noblet]] == Vincent Noblet == <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office :'''C211''' <br /> E-mail : '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Url : '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 64754d97dd52beb52cdca31aca8021f50ca14785 35 26 2013-01-10T11:09:54Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 120722697cb096958fac7b99e6b24a92fd9232da 36 35 2013-01-10T11:10:04Z Noblet 4 /* Publications */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6fc78f2b4384c15e77c65170917c4d36b0e04f1e 45 36 2013-01-22T12:54:24Z Admin 1 wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 44065c4821e2414853c4b0ba6c36e88ccfac892a 46 45 2013-01-22T12:55:04Z Admin 1 Undo revision 45 by [[Special:Contributions/Admin|Admin]] ([[User talk:Admin|talk]]) wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6fc78f2b4384c15e77c65170917c4d36b0e04f1e 10 7 11 2013-01-08T13:51:36Z Noblet 4 Created page with "== {{{prenom}}} {{{nom}}} == <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien ..." wikitext text/x-wiki == {{{prenom}}} {{{nom}}} == <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : {{{telephone}}}<br /> Fax : {{{fax}}}<br /> Office :'''{{{bureau}}}''' <br /> E-mail : '''{{{mail}}}'''<br />Url : '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> ddfdd8e7441cfecdae83fdaf9037d062ad7660b4 13 11 2013-01-08T13:53:57Z Noblet 4 Noblet moved page [[Modèle:PagePerso]] to [[Template:PagePerso]] wikitext text/x-wiki == {{{prenom}}} {{{nom}}} == <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> Pôle API<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : {{{telephone}}}<br /> Fax : {{{fax}}}<br /> Office :'''{{{bureau}}}''' <br /> E-mail : '''{{{mail}}}'''<br />Url : '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> ddfdd8e7441cfecdae83fdaf9037d062ad7660b4 24 13 2013-01-08T15:14:40Z Noblet 4 /* {{{prenom}}} {{{nom}}} */ wikitext text/x-wiki == {{{prenom}}} {{{nom}}} == <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : {{{telephone}}}<br /> Fax : {{{fax}}}<br /> Office :'''{{{bureau}}}''' <br /> E-mail : '''{{{mail}}}'''<br />Url : '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> 32cf39adb248c3035b1e8564b8bc989d33bb640d 27 24 2013-01-08T15:20:02Z Noblet 4 /* {{{prenom}}} {{{nom}}} */ wikitext text/x-wiki <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : {{{telephone}}}<br /> Fax : {{{fax}}}<br /> Office :'''{{{bureau}}}''' <br /> E-mail : '''{{{mail}}}'''<br />Url : '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> ffd4d9cc9aceea12362d3c5751f6da46209ba44d 28 27 2013-01-08T15:20:28Z Noblet 4 wikitext text/x-wiki <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | '''ICube - MIV'''<br /> 300, Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : {{{telephone}}}<br /> Fax : {{{fax}}}<br /> Office : '''{{{bureau}}}''' <br /> E-mail : '''{{{mail}}}'''<br />Url : '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> 37c88aa02b81a9585f969b46c43d02a6fd651b41 34 28 2013-01-10T11:03:29Z Mazet 3 wikitext text/x-wiki <big>'''{{{fonction}}}'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: {{{telephone}}}<br /> Fax: {{{fax}}}<br /> Office: '''{{{bureau}}}''' <br /> E-mail: '''{{{mail}}}'''<br />Website: '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> {{{urlpubli}}} <### /anyweb> bde06d654f174bc8fb378688678672869f561564 0 8 14 2013-01-08T13:53:57Z Noblet 4 Noblet moved page [[Modèle:PagePerso]] to [[Template:PagePerso]] wikitext text/x-wiki #REDIRECT [[Template:PagePerso]] c393c56af5ee62feb0446024560622649453c3ad 0 9 19 2013-01-08T14:00:47Z Noblet 4 Noblet moved page [[VincentNoblet]] to [[Vincent Noblet]] wikitext text/x-wiki #REDIRECT [[Vincent Noblet]] c2e67fc52ba3ed1f90105b214fe9e84bcb85a2bd 6 10 30 2013-01-09T11:21:11Z Mazet 3 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 100 11 32 2013-01-10T10:57:16Z Mazet 3 Created page with " <table> <tr> <td>[http://www.uni-freiburg.de University Albert-Ludwig]</td> <td>Freiburg-in-Breisgau</td> <td>Germany</td> </tr><tr> <td>[http://www3.imperial..." wikitext text/x-wiki <table> <tr> <td>[http://www.uni-freiburg.de University Albert-Ludwig]</td> <td>Freiburg-in-Breisgau</td> <td>Germany</td> </tr><tr> <td>[http://www3.imperial.ac.uk Imperial College London]</td> <td>London</td> <td>UK</td> </tr><tr> <td>[http://www.uh.edu University of Houston]</td> <td>Houston</td> <td>USA</td> </tr><tr> <td>[http://www.cuny.edu/index.html CUNY, The City University of New York]</td> <td>New-York</td> <td>USA</td> </tr><tr> <td>[http://depts.washington.edu/bicg/home BICG, Biomedical Image Computing Group]</td> <td>Seattle</td> <td>USA</td> </tr><tr> <td>[http://www.oca.eu Observatoire de la côte d'Azur]</td> <td>Nice</td> <td>France</td> </tr><tr> <td>[http://www.chu-besancon.fr CHU de Besançon, service de neurologie]</td> <td>Besançon</td> <td>France</td> </tr><tr> <td>[http://www-lfp.cea.fr/ Laboratoire Francis Perrin]</td> <td>Gif-sur-Yvette</td> <td>France</td> </tr><tr> <td>[http://www.lnao.fr LNAO, Laboratoire de Neuroimagerie Assistée par Ordinateur - NEUROSPIN]</td> <td>Gif-sur-Yvette</td> <td>France</td> </tr><tr> <td>[http://www.gipsa-lab.inpg.fr GIPSA lab]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://neurosciences.ujf-grenoble.fr GIN, Grenoble Institut des Neurosciences]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://www-obs.univ-lyon1.fr CRAL, Observatoire de Lyon]</td> <td>Lyon</td> <td>France</td> </tr><tr> <td>[http://www.esiee.fr/~info/a2si/gdi.html LIGM, Institut Gaspard Monge, Groupe Géométrie Discrète et Imagerie]</td> <td>Marne-la-Vallée</td> <td>France</td> </tr><tr> <td>[http://www.mips.crespim.uha.fr MIPS, Modélisation, Intelligence, Processus, Systèmes]</td> <td>Mulhouse</td> <td>France</td> </tr><tr> <td>[http://www.cran.uhp-nancy.fr/ CRAN, Centre de Recherche en Automatique de Nancy]</td> <td>Nancy</td> <td>France</td> </tr><tr> <td>[http://www.obspm.fr Observatoire de Meudon]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://picm.polytechnique.fr LPICM, Laboratoire de Physique des interfaces et couches minces]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://www.irisa.fr IRISA, Institut de recherche en informatique et systèmes aléatoires]</td> <td>Rennes</td> <td>France</td> </tr><tr> <td>[http://astro.u-strasbg.fr/observatoire Observatoire Astronomique de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://imaville.u-strasbg.fr Laboratoire Image, Ville et Environnement]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de psychiatrie]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de chirurgie orthopédique]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU de Strasbourg Hautepierre, service de réanimation]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>Institut d’anatomie normale de Strasbourg</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www-imfs.u-strasbg.fr IMFS, Institut de Mécanique des Fluides et des Solides]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www-iness.c-strasbourg.fr InESS, Institut d'Électronique du Solide et des Systèmes]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://eost.u-strasbg.fr/IPGS IPGS, Institut de Physique du Globe de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.virtual-surg.com IRCAD, Institut de Recherche Contre les Cancers de l'Appareil Digestif]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www-irma.u-strasbg.fr IRMA, Institut de Recherche Mathématique Avancée]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://neurochem.u-strasbg.fr/4unites/pages_unites/linc/linc.html LINC, Laboratoire d’Imagerie et de Neurosciences Cognitives]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.lcpc.fr Laboratoire Régional des Ponts et Chaussées de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.obs-mip.fr Observatoire de Toulouse]</td> <td>Toulouse</td> <td>France</td> </tr><tr> <td>[http://www.loria.fr LORIA, Laboratoire Lorrain de Recherche en Informatique et ses Applications]</td> <td>Vandoeuvre-lès-Nancy</td> <td>France</td> </tr><tr> <td>[http://www.cs.uoi.gr/index_en.html University of Ioannina]</td> <td>Ioannina</td> <td>Greece</td> </tr><tr> <td>Roma Observatory</td> <td>Roma</td> <td>Italy</td> </tr><tr> <td>[http://www.unisi.it/internet/home.html University of Sienne]</td> <td>Siena</td> <td>Italy</td> </tr><tr> <td>[http://www.uevora.pt University of Evora]</td> <td>Evora</td> <td>Portugal</td> </tr><tr> <td>[http://hepia.hesge.ch EIG, Ecole d'Ingénieurs de Genève]</td> <td>Geneva</td> <td>Swwitzerland</td> </tr><tr> <td>[http://www.enit.rnu.tn ENIT, Ecole Nationale d’Ingénieurs de Tunis]</td> <td>Tunis</td> <td>Tunisia</td> </tr> </table> 743138b8d339fab17dda68f4b934097fd8530d2b 0 12 37 2013-01-10T13:55:37Z Mazet 3 Created page with "No position available. [[fr:Stages]]" wikitext text/x-wiki No position available. [[fr:Stages]] a10ad33629799048f71bd094ef761be2fe3223ad 0 13 38 2013-01-10T13:55:51Z Mazet 3 Created page with "No position available. [[fr:Thèses]]" wikitext text/x-wiki No position available. [[fr:Thèses]] bb797863d88f22855de5f0a13ae97c3e420681e1 0 14 39 2013-01-10T13:56:02Z Mazet 3 Created page with "No position available. [[fr:Post-doc]]" wikitext text/x-wiki No position available. [[fr:Post-doc]] 742da4284ce13a73930c4b2493c4a4180459138d 0 15 40 2013-01-10T13:57:48Z Mazet 3 Created page with "* [http://lsiit-cnrs.unistra.fr/imphysy/index.php/Accueil.html Transverse axe "Physical Imagery and Systems" (ImPhySy)] [[en:Axes transverses]]" wikitext text/x-wiki * [http://lsiit-cnrs.unistra.fr/imphysy/index.php/Accueil.html Transverse axe "Physical Imagery and Systems" (ImPhySy)] [[en:Axes transverses]] 52a7f000de26463ac3108b79bc9919478c028a4c 0 16 41 2013-01-17T09:51:37Z Mazet 3 Created page with "See the [[fr:Séminaires|french page]] to have a look on our past and future seminaries. [[fr:Séminaires]]" wikitext text/x-wiki See the [[fr:Séminaires|french page]] to have a look on our past and future seminaries. [[fr:Séminaires]] 7e0f53cfd2d62fa09e7dab212d2b2bdf79d75ea2 42 41 2013-01-17T09:52:38Z Mazet 3 wikitext text/x-wiki See the [http://icube-miv.unistra.fr/fr/index.php?title=Séminaires french page] to have a look on our past and future seminaries. [[fr:Séminaires]] f70ea7b12804dd722114686d448d7d1f7216aae4 0 17 47 2013-01-22T14:11:16Z Naegel 6 Created page with "<big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDE..." wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 48 56 <br /> <br /> Office : '''C230''' <br /> Mail : '''b(dot)naegel(at)unistra(dot)fr'''<br />Personnal page : '''http://www.loria.fr/~naegelbe'''<br /> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 4fe4f43b63deefb9ffeeddd2b2783b2174c804a7 0 5 51 50 2013-01-23T08:53:15Z Mazet 3 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[File:VincentMazet.png|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] ae46eb287aebc9f9a5a139103a9c43b43bd256fb 0 18 52 2013-01-23T12:29:17Z Rousseau 10 Created page with "<big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch ..." wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 19147a6e53de4ebb0c5b01e32441c73e509a8a31 55 52 2013-01-23T12:48:47Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 4351624ed0885c13664ed9c5bf02654772bc84f3 57 55 2013-01-23T12:51:43Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> b748f8c5d834dc738322d82a577ed10f7062ded3 0 4 53 43 2013-01-23T12:29:58Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | BOUBCHIR Larbi|| Post-PhD student || || || |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | MAZO Loïc || Associate professor || || || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | RONSE Christian || Professor || || || |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] eea9e0f8abaf97d22af379eb97582ec3cd9eacc0 63 53 2013-01-24T10:35:37Z Boubchir 9 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | MAZO Loïc || Associate professor || || || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | RONSE Christian || Professor || || || |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] aee8ac731e51bc11a4aa2c441dba042bae258bbb 91 63 2013-01-25T14:03:16Z Cronse 12 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | MAZO Loïc || Associate professor || || || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 93b637a7509c1e74f950b0e287585df8920be5c9 95 91 2013-01-25T14:34:54Z Mazo 15 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | [[Utilisateur:Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 45e20ba34e6d4974a946a0026138c59f882d18cf 96 95 2013-01-25T15:21:23Z Mazo 15 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] c8c0f407d5ec9fcf2ce6ce2093bd7a7ecfc48f2f 99 96 2013-01-25T15:26:08Z Mazo 15 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 533d176638be83710efe8eefdf9a3918320be68d 100 99 2013-01-28T20:08:11Z Mazet 3 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | LALLEMENT Alex || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 7642a1531b2af0b4d57f2cd7510c83d7786661e0 0 19 54 2013-01-23T12:34:17Z Rousseau 10 Created page with "Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of grea..." wikitext text/x-wiki Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. bab74eec28da1fa8ffd3be69d2bfcec6a8a3c37b 6 20 56 2013-01-23T12:51:31Z Rousseau 10 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 21 58 2013-01-23T13:17:46Z Rousseau 10 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 22 59 2013-01-24T10:00:51Z Pontabry 7 Created page with "<big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Bureau : '''C223''' <br /> Courriel : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Recherche == === Construction d'un atlas probabiliste en IRM foetale === <br /> [[File:Template_tissues.png|600px|vignette|centré|''Modèle 3D des tissus cérébraux d'une population de foetus.'']] [[File:atlas.png|600px|vignette|centré|''Coupes coronales du modèle longitudinale d'une population de foetus. Les ages sont indiqués sur l'axe temporel en semaines. Première ligne : carte de probabilité de la matière grise ; Deuxième ligne : image anatomique.'']] <br /> '''Description''' La maturation cérébrale, c'est-à-dire la manière dont le cerveau se structure lors de sa formation à l'état foetal, est une des grandes énigmes contemporaines. Les connaissances actuelles sur le sujet trouvent souvent leurs origines à partir d'examens post-mortem. Cette difficulté est aujourd'hui dépassée par les avancées techniques en termes d'acquisition in-vivo ; notamment en IRM. À partir de quelques examens foetals cliniques (cas contrôlés), supposés représentatifs de la population générale, des méthodes d'étude de population peuvent être utilisées pour mettre en évidence les motifs d'évolution du cerveau humain in-utero. Un outil fondamental pour ces études est la construction d'atlas. Un atlas est une structure moyenne, représentative d'une population et qui permet de déceler les motifs et propriétés d'évolution de la population considérée. La solution proposée ici utilise des méthodes non-paramétrique sans a priori et avec une forte attache aux données. Ainsi, aucune hypothèse sur la forme du modèle de maturation cérébrale humaine dans le temps n'est formulée et l'apprentissage est uniquement conduit par les données. Les performances de la technique utilisée sont évaluées quantitativement par une méthodologie originale qui permet de s'assurer de la cohérence de l'atlas avec les données. '''Cadre''' Ces recherches s'incrivent dans le cadre d'un projet européen [[ERC FBrain|ERC Starting Grants]] sur l'étude de la maturation cérébrale. '''Avec''' * [[ François Rousseau|F. Rousseau ]] * [[ SCHWEITZER Marc|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] '''Logiciel''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractographie en IRM de diffusion : application au cerveau de foetus. === <br /> [[File:tracto_anim.gif|216px|vignette|gauche|''Tractographie complète d'un cerveau de foetus (affiché sur un rendu volumique).'']][[File:fetal_full-tracto_clustering.png|200px|vignette|droite|''Clustering des fibres.'']] [[File:fibers.png|500px|vignette|centré|''Vues coronale et sagitale de la tractographie de faisceaux du cerveau d'un foetus (corps calleux, pyramidaux).'']] [[File:map-cc.png|700px|vignette|centré|''Vue axiale et coronale de la carte de connectivité du corps calleux (gauche et milieu) et vue sagitale de la carte de connectivité du faisceau pyramidal (droite) du cerveau d'un foetus.'']] <br /> '''Description''' Le cerveau est principalement composée de matières grise et blanche. La matière blanche est majoritairement formé d'un tissu d'aspect fibreux naturellement provoqué par la partie axonale des neurones. L'eau contenue dans le cerveau humain est contrainte par cet enchevêtrements de tissus et diffuse le long de ceux-ci, révélant leurs trajectoires. L'IRM de diffusion est une technique permettant de capturer l'intensité de la diffusion de l'eau dans un espace. Les images formées sont ainsi des indications indirectes sur les trajectoires suivies par les paquets de fibres connectant une partie du cerveau à une autre. La tractographie consiste à déterminer ces trajectoire à l'aide d'images IRM de diffusion. D'un aspect clinique, la tractographie d'une image IRM de diffusion d'un patient permet par exemple de vérifier les connections entre les différentes zones du cerveau (moteur, sensorielles, etc.) ou de préparer une opération (localisation). L'intérêt de cette technique pour la recherche est de mieux connaître le réseau de connections du cerveau et d'en étudier l'évolution, par exemple chez le foetus. Le but de la tractographie est donc de tracer une trajectoire suivant la diffusion contrainte de l'eau dans le cerveau en utilisant des données bruitées (le bruit est du au système, à l'environnement, etc.). La solution proposée ici se base sur des méthodes de trajectographie dans des séquences vidéos (filtrage particulaire). Cette méthode permet un parcours efficace de l'espace de solution tout en gardant une certaine robustesse au bruit. Les observations brutes sont modélisées par des harmoniques sphériques permettant d'obtenir en chaque point de l'image une fonction de densité de probabilité de la diffusion. '''Cadre''' Ces recherches s'incrivent dans le cadre d'un projet européen [[ERC FBrain|ERC Starting Grants]] sur l'étude de la maturation cérébrale. '''Avec''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/0/2-PROSxx Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Publications associées''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Logiciel''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Enseignement == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 1c5e137b5de2b9e2b330662360ea26d57deb3d7d 60 59 2013-01-24T10:05:19Z Pontabry 7 /* Construction d'un atlas probabiliste en IRM foetale */ wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Bureau : '''C223''' <br /> Courriel : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Recherche == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractographie en IRM de diffusion : application au cerveau de foetus. === <br /> [[File:tracto_anim.gif|216px|vignette|gauche|''Tractographie complète d'un cerveau de foetus (affiché sur un rendu volumique).'']][[File:fetal_full-tracto_clustering.png|200px|vignette|droite|''Clustering des fibres.'']] [[File:fibers.png|500px|vignette|centré|''Vues coronale et sagitale de la tractographie de faisceaux du cerveau d'un foetus (corps calleux, pyramidaux).'']] [[File:map-cc.png|700px|vignette|centré|''Vue axiale et coronale de la carte de connectivité du corps calleux (gauche et milieu) et vue sagitale de la carte de connectivité du faisceau pyramidal (droite) du cerveau d'un foetus.'']] <br /> '''Description''' Le cerveau est principalement composée de matières grise et blanche. La matière blanche est majoritairement formé d'un tissu d'aspect fibreux naturellement provoqué par la partie axonale des neurones. L'eau contenue dans le cerveau humain est contrainte par cet enchevêtrements de tissus et diffuse le long de ceux-ci, révélant leurs trajectoires. L'IRM de diffusion est une technique permettant de capturer l'intensité de la diffusion de l'eau dans un espace. Les images formées sont ainsi des indications indirectes sur les trajectoires suivies par les paquets de fibres connectant une partie du cerveau à une autre. La tractographie consiste à déterminer ces trajectoire à l'aide d'images IRM de diffusion. D'un aspect clinique, la tractographie d'une image IRM de diffusion d'un patient permet par exemple de vérifier les connections entre les différentes zones du cerveau (moteur, sensorielles, etc.) ou de préparer une opération (localisation). L'intérêt de cette technique pour la recherche est de mieux connaître le réseau de connections du cerveau et d'en étudier l'évolution, par exemple chez le foetus. Le but de la tractographie est donc de tracer une trajectoire suivant la diffusion contrainte de l'eau dans le cerveau en utilisant des données bruitées (le bruit est du au système, à l'environnement, etc.). La solution proposée ici se base sur des méthodes de trajectographie dans des séquences vidéos (filtrage particulaire). Cette méthode permet un parcours efficace de l'espace de solution tout en gardant une certaine robustesse au bruit. Les observations brutes sont modélisées par des harmoniques sphériques permettant d'obtenir en chaque point de l'image une fonction de densité de probabilité de la diffusion. '''Cadre''' Ces recherches s'incrivent dans le cadre d'un projet européen [[ERC FBrain|ERC Starting Grants]] sur l'étude de la maturation cérébrale. '''Avec''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/0/2-PROSxx Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Publications associées''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Logiciel''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Enseignement == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f626fbe78bd617bafed59c0e0e58ff19b96d0cbc 61 60 2013-01-24T10:10:04Z Pontabry 7 /* Tractographie en IRM de diffusion : application au cerveau de foetus. */ wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Bureau : '''C223''' <br /> Courriel : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Recherche == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/0/2-PROSxx Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Enseignement == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f0442aa1bbad07d390e40ee442d59dafb1c843fe 62 61 2013-01-24T10:11:54Z Pontabry 7 wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/0/2-PROSxx Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 1464dc280fccd2318cd722fafc3751509d80986a 0 23 64 2013-01-24T11:35:27Z Boubchir 9 Created page with "<big>'''Chercheur post-doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch..." wikitext text/x-wiki <big>'''Chercheur post-doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> 27a0b33914f168948fcd7c9ca5ca855ec6d4ff87 65 64 2013-01-24T11:35:47Z Boubchir 9 wikitext text/x-wiki <big>'''Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> 51cc4412c98ca1388eddfe1b757f70130e79776b 66 65 2013-01-24T11:37:00Z Boubchir 9 wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> 06e89dc7df871d1030e78204c7e035bfdc7691ac 67 66 2013-01-24T11:38:06Z Boubchir 9 wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == 55abf8611e539b2c5af5cb9439270c4ac5eda8a5 68 67 2013-01-24T11:38:59Z Boubchir 9 /* Publications */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Articles dans des revues internationales à comité de lecture === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Communications internationales avec actes === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === Communications nationales avec actes === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Conférence internationale avec comité de lecture, sans actes === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thèse de doctorat === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. 3e8c2df57a5f39670c0b9d894d1aced9f3c3e5be 69 68 2013-01-24T11:43:13Z Boubchir 9 /* Articles dans des revues internationales à comité de lecture */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Communications internationales avec actes === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === Communications nationales avec actes === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Conférence internationale avec comité de lecture, sans actes === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thèse de doctorat === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. e72892bcd3ac081389e33d813ef12eb1293736b9 70 69 2013-01-24T11:43:56Z Boubchir 9 /* Communications internationales avec actes */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === Communications nationales avec actes === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Conférence internationale avec comité de lecture, sans actes === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thèse de doctorat === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. 471eeb8d057bf17cb371d50c4f81c983854ba0a6 71 70 2013-01-24T11:44:09Z Boubchir 9 /* Communications nationales avec actes */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Conférence internationale avec comité de lecture, sans actes === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thèse de doctorat === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. 908d6ace20afbfda40050ff298570294f6087b72 72 71 2013-01-24T11:44:54Z Boubchir 9 /* Conférence internationale avec comité de lecture, sans actes */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thèse de doctorat === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. 626016d316572be2d32be3a2978f0ee710774a88 73 72 2013-01-24T11:45:08Z Boubchir 9 /* Thèse de doctorat */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Thèse de doctorat, Université de Caen, France, Jui. 2007. baaab97c8084b6c5cb099936882cccd0c564a48f 74 73 2013-01-24T11:46:12Z Boubchir 9 /* Thesis */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "Study of a quantisation index modulation based informed watermarking scheme", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (IEEE ACM SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. e4cbf3487134980ccc9d9e73f396f4983736a9cc 75 74 2013-01-24T11:53:11Z Boubchir 9 /* Conference and workshop articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. f27070471969d56af546c7933df0a597819abe5b 76 75 2013-01-24T11:54:35Z Boubchir 9 /* Conference and workshop articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 2e32bbb2b260159e410ea3b19af8e14490e37bd9 77 76 2013-01-24T11:57:56Z Boubchir 9 /* Conference and workshop articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. eb77cf58d7e7b542a86be9a714eb98aeb86aebb3 78 77 2013-01-24T11:58:46Z Boubchir 9 /* Journal articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 873a1660c1aa3d1773ab07b3c1231b0d325447da 79 78 2013-01-24T11:59:44Z Boubchir 9 /* Conference and workshop articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 6807079c2611be53de600c51284210caa4cd9f77 80 79 2013-01-24T12:13:53Z Boubchir 9 /* Teaching Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Licence 3 Informatique: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Bases de données 2] (TD) | |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 9b073d50794bf67adcccd96e47499ac5d2b7e1b4 81 80 2013-01-24T12:16:50Z Boubchir 9 /* Teaching Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. fbbc32e0c6a56017624c3cebea9ef397e269941b 82 81 2013-01-24T12:30:16Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the[[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[Fichier:FiberClustering example.png|200px|vignette|droite]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 55247c597c2dcf98feae4148ad02939c5f3d7e60 83 82 2013-01-24T12:30:32Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the[[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[Fichier:FiberClustering example.png|200px|vignette|droite]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. ecb8b3fb934f1363274e6046659b655028ab139c 84 83 2013-01-24T12:31:10Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the[[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. [[File:FiberClustering example.png|150px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 5f6b50360f36a4400fc6b8261a72f2c59687eef6 85 84 2013-01-24T12:31:52Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the[[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|150px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 98a08a22543d08c0bcdc40a43d2b9e21d3a79396 86 85 2013-01-24T12:32:04Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the[[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|150px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 32063cf98b1025ac9896027a6922c2c6a629405a 87 86 2013-01-24T12:32:41Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (TD) |- | Level: Licence 3 Informatique |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 7d58dbea9f1c5fad72b846f285a353c010bcbd0d 88 87 2013-01-24T12:33:07Z Boubchir 9 /* Teaching Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2012 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 0a18d9adf781e0b6c8ecb61aeb24de5d77f9b549 0 24 89 2013-01-25T13:59:16Z Cronse 12 Created page with "[[Fichier:RonseLuminy.jpg|vignette]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C22..." wikitext text/x-wiki [[Fichier:RonseLuminy.jpg|vignette]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] f4f04217c13c744a49295df5724b203cbf6474c8 90 89 2013-01-25T14:00:34Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] 91bd4adcaeb7a64c0f3e3cea327b04a70d41604b 92 90 2013-01-25T14:04:36Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:maPage]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] 66925582b098739234ea5dc85e78aa8da6ef1706 93 92 2013-01-25T14:05:16Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] 71bb224b1e04187ac9c02ce9a9f4876d31e6b06c 0 25 94 2013-01-25T14:32:47Z Mazo 15 Created page with "== <big>'''''Loïc MAZO'''''</big> == <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br..." wikitext text/x-wiki == <big>'''''Loïc MAZO'''''</big> == <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 3fd6a0df6cfd8d4673e99378ec5eb4beef7919d5 0 26 97 2013-01-25T15:22:23Z Mazo 15 Created page with "<big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDE..." wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6683c7d452ad43348fbbe65b7ba4c1dc899d0313 0 27 98 2013-01-25T15:24:04Z Mazo 15 Redirected page to [[Loïc Mazo]] wikitext text/x-wiki #REDIRECT [[Loïc Mazo]] 842ff6e839bb610302ed31cf2749cbdf280a13c0 0 28 101 2013-01-29T08:03:52Z Mazet 3 Created page with "{{subst:Template:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(..." wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 4afca24a377f383d43a2bbd8787d5cb3d88ba1a3 102 101 2013-01-29T08:04:19Z Mazet 3 wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> afd065b2c2c1e4c704ba66b6f4b5c500ec2622b7 103 102 2013-01-29T08:12:53Z Lallement 23 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> dd64f8110591657a04892163bf4fd884803b44bb 104 103 2013-01-29T08:14:55Z Lallement 23 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 30c78b3466aeb22b718dca1d966760c2e2112ec4 0 4 105 100 2013-01-29T08:16:56Z Lallement 23 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || || || |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 3f3aba3c4bf2f766d10c14aca68daacd8a196945 106 105 2013-01-29T08:17:57Z Lallement 23 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | FAISAN Sylvain || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] fe0ab3bbd75129d7186f57c515e18f78575a6b68 121 106 2013-02-01T15:15:33Z Faisan 27 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[FAISAN Sylvain|Faisan Sylvain]] || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 3548cd6da86bc7588810a29593c1ed0353bffacb 122 121 2013-02-01T15:16:44Z Faisan 27 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || || || |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 0d4b153d883894830d57aa0dc44f0e1e89c7f3d3 123 122 2013-02-01T15:17:55Z Faisan 27 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | GKAMAS Theodosios || PhD student || || || |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 58125a2a5bb8d0d9851b0722de591b2c15b3014e 129 123 2013-02-04T12:58:21Z Tgkamas 28 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | GKAMAS Theodosios || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] cceceffa0a3d8b1adba7af5a2462d4722ca56f7d 130 129 2013-02-04T12:59:23Z Tgkamas 28 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | LAVIGNE François || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 4662a7a8459d06b1c2b056d54bf8d89dfe61e1f6 0 6 107 46 2013-01-29T14:10:09Z Noblet 4 /* Description of Activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", Alix Bouchon (2012 - ), co-supervised with Fabrice Heitz * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", Antoine Grigis (2009-2012), co-supervised with Fabrice Heitz and Jean-Paul Armspach. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", Hervé Boisgontier (2006-2010), co-supervised with Fabrice Heitz and Jean-Paul Armspach. Teaching : * Signal processing (1A/2A) at école Telecom Physique Strasbourg * "[http://lsiit-miv.u-strasbg.fr/miv/index.php?contenu=dispositifs_imagerie_medicale.php Medical image devices ]" in the Master "Images, Sciences et Technologies de l'Information" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> d9ed07af7d4198ce66781fa4c874b352d910942c 108 107 2013-01-29T14:10:46Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", Alix Bouchon (2012 - ), co-supervised with Fabrice Heitz * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", Antoine Grigis (2009-2012), co-supervised with Fabrice Heitz and Jean-Paul Armspach. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", Hervé Boisgontier (2006-2010), co-supervised with Fabrice Heitz and Jean-Paul Armspach. Teaching : * Signal processing (1A/2A) at école Telecom Physique Strasbourg * "[http://lsiit-miv.u-strasbg.fr/miv/index.php?contenu=dispositifs_imagerie_medicale.php Medical image devices ]" in the Master "Images, Sciences et Technologies de l'Information" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> d22446bf0cdc7842ca353eadbc39956404216370 0 29 109 2013-01-30T13:57:06Z Dufour 19 Created page with "<big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - Fr..." wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Vascular segmentation in 3D angiographic images === === Cerebro-vascular atlas === == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 484b0aca201eab18d7934085c386a4644b1a0528 110 109 2013-01-30T14:02:59Z Dufour 19 /* Research activities */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === === Cerebro-vascular atlas === == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 26cb61725fadf35956217b935891684de79ad31a 111 110 2013-01-30T14:06:57Z Dufour 19 /* Vascular segmentation in 3D angiographic images */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === <center> <gallery caption="Segmentation of the brain arterial network"> Fichier:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> Fichier:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> Fichier:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 3bed2d24510a5ad8613c959f868a494e311363b7 112 111 2013-01-30T14:07:27Z Dufour 19 /* Vascular segmentation in 3D angiographic images */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 77f7680f83076659aa4bc59b4334250865aef512 113 112 2013-01-30T14:10:03Z Dufour 19 /* Cerebro-vascular atlas */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 7fae93ca4a956409d20ea6601f10ed7b972df85a 114 113 2013-01-30T14:17:42Z Dufour 19 /* Vascular segmentation in 3D angiographic images */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === The segmentation of vascular structures consist in extract the relevant information from the angiographic data, to allow radiologist to focus only on the information analysis. Works upstream and based on mathematical morphology are fitting on the angiographic data segmentation. They are been improve and applied on our data. <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 9e980e52c865be1908779b519d175a1d3e44f216 115 114 2013-01-30T14:29:03Z Dufour 19 /* Cerebro-vascular atlas */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === The segmentation of vascular structures consist in extract the relevant information from the angiographic data, to allow radiologist to focus only on the information analysis. Works upstream and based on mathematical morphology are fitting on the angiographic data segmentation. They are been improve and applied on our data. <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === To integrate anatomical knowledge in the segmentation process, the knowledge should be modelling. The second goal of this thesis consist to develop vascular models, and the generating pipeline. <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= b90f3ee8fa11ac5bdd4abc4236007dd672731c8c 116 115 2013-01-31T07:39:59Z Dufour 19 wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:Adufour.JPG|frameless|center]] </td> </table> == Research activities == <center> <big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big> </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] === Vascular segmentation in 3D angiographic images === The segmentation of vascular structures consist in extract the relevant information from the angiographic data, to allow radiologist to focus only on the information analysis. Works upstream and based on mathematical morphology are fitting on the angiographic data segmentation. They are been improve and applied on our data. <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff === Cerebro-vascular atlas === To integrate anatomical knowledge in the segmentation process, the knowledge should be modelling. The second goal of this thesis consist to develop vascular models, and the generating pipeline. <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= 29f2978dcb6ab169448b62e1ccfef07c4f40b526 100 30 117 2013-01-31T14:37:35Z Collet 2 Created page with "Responsable : [[Christophe Collet]] <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[en:Probabilistic analysis for space & Earth observations]]" wikitext text/x-wiki Responsable : [[Christophe Collet]] <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[en:Probabilistic analysis for space & Earth observations]] 90ea3179d7781f7f4c4a3b5fc5b888e73f452dbd 0 31 118 2013-02-01T15:12:21Z Faisan 27 Created page with "{{subst:Template:PagePerso|prenom=Sylvain|nom=Faisan|fonction=Maître de conférence|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=faisan(at..." wikitext text/x-wiki <big>'''Maître de conférence'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> e36bc5b74af48fa10a71b676bb2f2b67668d4c85 119 118 2013-02-01T15:12:39Z Faisan 27 /* Publications */ wikitext text/x-wiki <big>'''Maître de conférence'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> a5399e48c18f1465eb9db4a67d0afe9a22184a74 120 119 2013-02-01T15:13:07Z Faisan 27 wikitext text/x-wiki <big>'''Maître de conférence'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 8d97e95ccdb71ad850ae61f9a65a28eaabb2909f 124 120 2013-02-01T15:21:19Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> b2a6438f5209668f6700df3ded5404bbaa3ab984 0 18 125 57 2013-02-03T13:24:47Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software (BTK) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> aff0ef79d4d081f70c39ea363a8ce91201bf82ef 0 32 126 2013-02-04T09:23:15Z Noblet 4 Created page with "bla" wikitext text/x-wiki bla ffa6706ff2127a749973072756f83c532e43ed02 127 126 2013-02-04T10:55:34Z Collet 2 wikitext text/x-wiki ===== PEPS SpectroDec ===== Période : 2011-2012 Coordinateur : [[Vincent Mazet]] <br /> ===== ANR SpaceFusion ===== Période : 2006-2009 PI : [A. Jalobeanu] SpaceFusion (ANR Jeunes Chercheurs 2005) - closed SpaceFusion is a 3-year project funded by the French Research Agency (ANR). The goal is to perform multisource data fusion in astronomy and remote sensing. We use Bayesian inference to combine multiple images of the same area into a single, physically meaningful model (image in astronomy, digital surface model in Earth or planetary observation). Errors are propagated from the sources to the estimated model. Working themes: Super-resolution, registration, stereo, DEM and DTM reconstruction, change modeling, uncertainties. Group participants: A. Jalobeanu, C. Collet, M. Louys, F. Salzenstein. Direct collaborators: E. Slezak, A. Bijaoui (OCA). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet SpaceFusion du thème PASEO] ===== ACI MDA ===== Période : 2003-2006 Coordinator : [[Christophe Collet]] for Lab. LSIIT MDA (Data Masses in Astronomy) - closed This project is intended to set up collaborations between IT labs within a Virtual Observatory framework. Our group is mainly involved in this project through hyperspectral data reduction and fusion. Working themes: Multispectral image analysis, hyperspectral data reduction, data fusion. Participating research labs: CDS (Strasbourg), CERGA (Grasse), CESR (Toulouse), IAP (Paris), IRIT (Toulouse), LORIA (Nancy), LSIIT (Strasbourg), Observatoire de Paris. Group participants: all. Direct collaborators: F. Genova, F. Bonnarel, A. Schaaff, J-J. Claudon (CDS), A. Bijaoui, E. Slezak (OCA), S. Genaud, R. David (LSIIT). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet MDA du thème PASEO] <br /> ===== ACI IDHA ===== Période : 2001-2004 Coordinator : [[Christophe Collet]] for Lab. LSIIT IDHA (Distributed Heterogeneous Images in Astronomy) - closed Within the context of Virtual Observatories, this project aimed at the development of tools to integrate query results into heterogeneous image distribution services. The group was involved through elaborating methods of multiresolution cross-identification from multispectral images. Working themes: Multiscale cross-identification in multispectral imaging. Participating research labs: CDS (Strasbourg), LSIIT (Strasbourg), QUB (Belfast), IAP (Paris), LAM (Marseille). Group participants: C. Collet, M. Louys. Direct collaborators: F. Murtagh (QUB), F. Genova, F. Bonnarel, A. Oberto (CDS). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php IDHA project] 0655a59cc13f04872d40598388b83247ab5806cf 128 127 2013-02-04T10:58:00Z Collet 2 wikitext text/x-wiki [[fr:Anciens_projets]] ===== PEPS SpectroDec ===== Période : 2011-2012 Coordinateur : [[Vincent Mazet]] <br /> ===== ANR SpaceFusion ===== Période : 2006-2009 PI : [A. Jalobeanu] SpaceFusion (ANR Jeunes Chercheurs 2005) - closed SpaceFusion is a 3-year project funded by the French Research Agency (ANR). The goal is to perform multisource data fusion in astronomy and remote sensing. We use Bayesian inference to combine multiple images of the same area into a single, physically meaningful model (image in astronomy, digital surface model in Earth or planetary observation). Errors are propagated from the sources to the estimated model. Working themes: Super-resolution, registration, stereo, DEM and DTM reconstruction, change modeling, uncertainties. Group participants: A. Jalobeanu, C. Collet, M. Louys, F. Salzenstein. Direct collaborators: E. Slezak, A. Bijaoui (OCA). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet SpaceFusion du thème PASEO] ===== ACI MDA ===== Période : 2003-2006 Coordinator : [[Christophe Collet]] for Lab. LSIIT MDA (Data Masses in Astronomy) - closed This project is intended to set up collaborations between IT labs within a Virtual Observatory framework. Our group is mainly involved in this project through hyperspectral data reduction and fusion. Working themes: Multispectral image analysis, hyperspectral data reduction, data fusion. Participating research labs: CDS (Strasbourg), CERGA (Grasse), CESR (Toulouse), IAP (Paris), IRIT (Toulouse), LORIA (Nancy), LSIIT (Strasbourg), Observatoire de Paris. Group participants: all. Direct collaborators: F. Genova, F. Bonnarel, A. Schaaff, J-J. Claudon (CDS), A. Bijaoui, E. Slezak (OCA), S. Genaud, R. David (LSIIT). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet MDA du thème PASEO] <br /> ===== ACI IDHA ===== Période : 2001-2004 Coordinator : [[Christophe Collet]] for Lab. LSIIT IDHA (Distributed Heterogeneous Images in Astronomy) - closed Within the context of Virtual Observatories, this project aimed at the development of tools to integrate query results into heterogeneous image distribution services. The group was involved through elaborating methods of multiresolution cross-identification from multispectral images. Working themes: Multiscale cross-identification in multispectral imaging. Participating research labs: CDS (Strasbourg), LSIIT (Strasbourg), QUB (Belfast), IAP (Paris), LAM (Marseille). Group participants: C. Collet, M. Louys. Direct collaborators: F. Murtagh (QUB), F. Genova, F. Bonnarel, A. Oberto (CDS). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php IDHA project] 03da0cf23ea94494077ba93641d84d9e35033888 0 33 131 2013-02-04T13:00:49Z Tgkamas 28 Created page with "'''ICube - MIV''' 300 Bd Sébastien Brant BP 10413 67412 Illkirch CEDEX - France Phone: - Fax: - Office: C227a E-mail: tgkamas(at)unistra(dot)fr" wikitext text/x-wiki '''ICube - MIV''' 300 Bd Sébastien Brant BP 10413 67412 Illkirch CEDEX - France Phone: - Fax: - Office: C227a E-mail: tgkamas(at)unistra(dot)fr be2890a9eaf6b466b29f96e3ff0dc04612d8c8be 132 131 2013-02-04T13:03:23Z Tgkamas 28 wikitext text/x-wiki '''Doctorant'''<br /> <br /> '''ICube - MIV'''<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> Phone: -<br /> Fax: -<br /> Office: C227a<br /> <br /> E-mail: tgkamas(at)unistra(dot)fr<br /> ee18101aae8b722b90425540645fd6b6b85a3d55 133 132 2013-02-04T13:13:35Z Tgkamas 28 wikitext text/x-wiki '''Doctorant'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: -<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} d556b864a36402cb71ea577f7e28d23cb29d3e39 134 133 2013-02-04T13:14:29Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: -<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} a8f674b842ad15a0cffa36d88ba62eb276d9434f 135 134 2013-02-04T13:18:38Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /><br /> |} 14df138a1d30851d09a0ccfc39d20e17f255ea47 136 135 2013-02-04T13:19:21Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> 3c58620baa68530542f6a7359c6eea268da2b30c 137 136 2013-02-04T13:34:03Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> <br /> '''Specialties''' <br /> <br /> Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> 9e5c4094d40ffeb249c93e70a4979ac10a51ad64 143 137 2013-02-04T16:05:36Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> <br /> '''Specialties''' <br /> <br /> Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] <br /> [http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] <br /> 2011 – 2014 (''expected'') <br /> '''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] '''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications <br /> 2008 – 2010 <br /> '''Degree:''' 9.90/10, “EXCELLENT” <br /> '''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] <br /> '''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] '''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] <br /> 2003 – 2008 <br /> '''Degree:''' 7.32/10, “VERY GOOD” <br /> '''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. <br /> '''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> 2d84644f1c6be6704204b04f8dfa3ffde5e91158 144 143 2013-02-04T16:13:30Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == # [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> <br /> '''Authors:''' Theodosios Gkamas, [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> # [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. <br /> Authors: Theodosios Gkamas, Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 57b136fa43ca403929e8e56773a4fc1e3df46fb9 145 144 2013-02-04T16:14:04Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> <br /> '''Authors:''' Theodosios Gkamas, [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. <br /> '''Authors:''' Theodosios Gkamas, Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 15e377db9cf06892b6a190231f390bf31097294a 146 145 2013-02-04T16:14:33Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' Theodosios Gkamas, [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' Theodosios Gkamas, Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 9b0ac46a9e77fdb455fb83a5eeadb5541423a450 147 146 2013-02-04T16:15:21Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' Theodosios Gkamas, [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' Theodosios Gkamas, Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' cf5354cedea8538d970c6c2341cdc4045e0a400e 148 147 2013-02-04T16:17:41Z Tgkamas 28 wikitext text/x-wiki '''Ph.D. Student'''<br /> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Fax: -<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /><br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 25e7f109fa8c1a1b07c32364f9d3ce2ac9488e3c 149 148 2013-02-04T16:30:19Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Tel: 49534<br /> Fax: -<br /> Bureau: '''C227a'''<br /> <br />Courriel: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 7a64e3f302e4330de0a511e2311f0a25aad7cce5 150 149 2013-02-04T16:32:23Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Tel: 49534<br /> Fax: -<br /> Bureau: '''C227a'''<br /> <br />Courriel: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 1a7ef788dd1cce423a92d7864550481eaf77ba49 0 34 138 2013-02-04T13:38:05Z Bouthillon 25 Created page with "{{subst:Template:PagePerso|prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 3 68 85 44 89| fax=+ 33 (0) 3 68 85 44 97| bureau=C211 | mail=vincent(..." wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/5-NOBLET-Vincent.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 4afca24a377f383d43a2bbd8787d5cb3d88ba1a3 139 138 2013-02-04T13:40:15Z Bouthillon 25 wikitext text/x-wiki <big>'''Doctorante'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/98-BOUTHILLON-Marine.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === 6cec8988088c958ff52e3e8a952c5f0df97e6c6e 140 139 2013-02-04T13:40:47Z Bouthillon 25 wikitext text/x-wiki <big>'''Doctorante'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/98-BOUTHILLON-Marine.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' aabab440cb3c6c507de4ab95e1f22858021585c6 141 140 2013-02-04T13:41:23Z Bouthillon 25 Creation wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/98-BOUTHILLON-Marine.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' 546b4a7ce3a6b866b404220e3eb379952a5d6f22 142 141 2013-02-04T13:42:16Z Bouthillon 25 wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br />Website: '''http://lsiit-miv.u-strasbg.fr/miv/98-BOUTHILLON-Marine.html'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' 28039274362c654bf4b2ee3dc0d588adfb61cfc7 0 33 151 150 2013-02-04T16:49:52Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />Courriel: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' ec9bf8c935659c441f561f20410fb5b19599cfd6 152 151 2013-02-04T16:50:07Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 4b93bff22e75333528ba2b18f1ec40c45260c5b6 0 35 153 2013-02-06T17:18:52Z Heitz 30 Created page with "{{subst:Template:PagePerso|prenom=Fabrice|nom=Heitz|fonction=Professor, Deputy Director|telephone=+ 33 (0) 3 68 85 44 87| fax=+ 33 (0) 3 68 85 44 55| bureau=C215 | mail=fabric..." wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br />Website: '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 8aac2dc3d9c990cd8f50b410b978d8a1945b7222 154 153 2013-02-06T17:19:17Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br />Website: '''{{{url}}}'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 35aab2726fccee083c528043057022bb643d9cf4 155 154 2013-02-06T17:19:44Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 13f148038fc2129e5e88a8c66d14d6f1c78fbe23 156 155 2013-02-06T17:21:39Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:fab6.jpg|400px|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ec24d9b864e11bab537888fd9ef7225c1408e590 157 156 2013-02-06T17:22:21Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 3408a60ec572b65473a38863632d8e97a32ecd41 158 157 2013-02-06T17:29:14Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory === Research === === Courses === == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 99a3180dc4cfe5042c2a64f916b2f49f365264e9 159 158 2013-02-06T17:41:04Z Heitz 30 /* Description of Activities */ wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory === Research === === Courses === :::Analog Signal ans Systems :::Probability and Stochastic Processes :::Random Signals and Statistical Signal Processing. :::Statistics :::2D Signal Processing :::Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 3ae8d261e6a5534f5dcdd87e1ad0d7e9842e2389 160 159 2013-02-06T17:46:07Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory === Research === * Signal and Image Processing * Statistical modeling, Markov models, non Gaussian models, deformable models. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === :::Analog Signal ans Systems :::Probability and Stochastic Processes :::Random Signals and Statistical Signal Processing. :::Statistics :::2D Signal Processing :::Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 874c3fbf1f489e0263e43cd2c14b498ec81f11c8 161 160 2013-02-06T17:47:03Z Heitz 30 /* Courses */ wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory === Research === * Signal and Image Processing * Statistical modeling, Markov models, non Gaussian models, deformable models. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 27ac27651285b4234cf198b2638276c4fa46fbb8 0 4 162 130 2013-02-07T14:56:43Z Lavigne 20 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || || || |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 1135b62b444e5e07a77ffbf9139ac33c073376e8 164 162 2013-02-07T14:57:44Z Lavigne 20 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | DUFOUR Alice || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 714a0e2b0b9b5e3b429072c5f76d8b34d694b1b7 178 164 2013-02-13T08:06:05Z Dufour 19 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[DUFOUR Alice|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 2b6886cdc0e982c8da69b77d4004d09a5fa3361b 179 178 2013-02-13T08:06:33Z Dufour 19 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[DUFOUR Alice|Alice Dufour]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] ce8942edb314dbbd5c448e715bc4665f6eafac75 180 179 2013-02-13T08:07:09Z Dufour 19 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | ABDMOULEH Fatma || PhD student || || || |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 04266fb48f8c3cdf154be83ffac775f4b129ba44 181 180 2013-02-13T09:50:40Z Abdelmoulah 16 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 82fc510f3dde0dfa41a92e1ca4811962829db3d7 191 181 2013-02-15T16:14:23Z Mazo 15 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | BOUTHILLON Marine || PhD student || || || |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 74098a6c3c7d2c0e63baef77bfb6b448ecd2a6eb 197 191 2013-02-25T13:07:39Z Bouthillon 25 Personal information added wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 719d9c25680b59351dc34011ff624a9cc8d2edb8 0 36 163 2013-02-07T14:57:02Z Lavigne 20 Created page with "toto" wikitext text/x-wiki toto 0b9c2625dc21ef05f6ad4ddf47c5f203837aa32c 165 163 2013-02-07T14:58:35Z Lavigne 20 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Bureau : '''B252''' <br /> Courriel : '''f.lavigne@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Activités de recherche == <center> <big>Sujet de thèse : '''''Segmentation statistique 3d+t d’images IRM multimodales pour la quantification de la charge lésionnelle.'''''</big> </center> Directeur : [[Christophe Collet]] Co-directeur : Jean-Paul Armspach 92a86a3e2951b5459774195a3a314e6ef89d885d 166 165 2013-02-07T15:01:26Z Lavigne 20 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Bureau : '''B252''' <br /> Courriel : '''f.lavigne@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == <center> <big>Sujet de thèse : '''''Segmentation statistique 3d+t d’images IRM multimodales pour la quantification de la charge lésionnelle.'''''</big> </center> Director : [[Christophe Collet]] Co-director : Jean-Paul Armspach 8f904dbb9d9287f68be39278d6362d23fc15764d 167 166 2013-02-07T15:08:33Z Lavigne 20 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> E-mail : '''f.lavigne@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == <center> <big>Sujet de thèse : '''''Segmentation statistique 3d+t d’images IRM multimodales pour la quantification de la charge lésionnelle.'''''</big> </center> Director : [[Christophe Collet]] Co-director : Jean-Paul Armspach 3cb662e093dd1105c707ae2821d8ea8f5a253e54 168 167 2013-02-07T15:13:24Z Lavigne 20 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> E-mail : '''f.lavigne@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == <center> <big>PhD Theme : '''''Statistical Segmentation of multimodal 3d+t MRI Images for the Measurement of the Lesion Load.'''''</big> </center> Director : [[Christophe Collet]] Co-director : Jean-Paul Armspach 6ceafba369dd5d83d3d926e20aefafd62c193fff 172 168 2013-02-12T10:58:09Z Lavigne 20 /* Research Activities */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> E-mail : '''f.lavigne@unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == <center> <big>PhD Theme : '''''Statistical Segmentation of multimodal 3d+t MRI Images for the Measurement of the Lesion Load.'''''</big> </center> Director : [[Christophe Collet]] Co-director : Jean-Paul Armspach 3D+t IRM images are segmented at the same time by using a bayesian framework and Markov Chains. The changes between the differents IRM images are also extracted. 258105d865f4d54244882123f72468cc3caf4e3d 0 37 169 2013-02-08T16:10:49Z Heinrich 29 Created page with "[[fr:Christian Heinrich]] Professeur<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Bureau : C209<br> Tel ..." wikitext text/x-wiki [[fr:Christian Heinrich]] Professeur<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Bureau : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <big>'''Enseignement'''</big><br> Traitement du signal, probabilités, statistiques, problèmes inverses. </P> <P> <big>'''Research'''</big><br> * Modélisation de données de grande dimension. <br> Application en imagerie médicale : analyse de formes et de données d'IRM de diffusion ; étude de la connectivité et des réseaux cérébraux. * Problèmes inverses. <br> Application en imagerie polarimétrique, pour l'analyse de tissus biologiques. <br> Travaux en collaboration avec Jihad Zallat (équipe TRIO, iCube), dans le cadre de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) 56bc11ddd3eea171f0e3eae6bd8c10f3a6262d23 170 169 2013-02-08T16:36:59Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <big>'''Teaching'''</big><br> Signal processing, probability, statistics, inverse problems. </P> <P> <big>'''Research'''</big><br> * High-dimensional statistics for medical image analysis. <br> Application to shape analysis, diffusion-weighted MRI data analysis, and brain connectivity and networks study. <br> In collaboration with Stéphane Kremer (IMIS team, iCube), GIPSA lab (Félix Renard, Sophie Achard) and ''Grenoble Institut des Neurosciences'' (GIN) (Chantal Delon-Martin). * Inverse problems. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, iCube). ''Imagerie Physique et Systèmes'' (IPS) research axis. fe8eac33c9285a08a54523110442bcc2332b8b8e 0 23 171 88 2013-02-11T11:53:20Z Boubchir 9 /* Journal articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://www.signalprocessingsociety.org/publications/periodicals/tsp/ Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, 2013, DOI 10.1109/TSP.2013.2245657 (in press). * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. d726aec7aff3ef6a53c6ffcd3fb29eb4324a08bb 0 38 173 2013-02-12T11:02:39Z Collet 2 Created page with "<big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} == Description des activités == <anyweb> http://lsiit-miv.u-strasbg.fr/lsiit/perso/collet/Perso/ColletPerso.htm </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 419507f8b915f641a1d25a05f697148843990280 174 173 2013-02-12T11:03:26Z Collet 2 wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} == Activities == <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 7b40bceb498ca781ec9d94c2a866e1f96f75ead3 175 174 2013-02-12T11:06:58Z Collet 2 wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> [[File:ChCollet.jpg|frameless|center|150px]] </td> </table> == Activities == <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 99d188a493d9cd1ffb242248f640510babd5f538 176 175 2013-02-12T11:08:29Z Collet 2 wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> [[File:ChCollet.jpg|frameless|center|150px]] </td> </table> == Activities in astronomical image processing (medical imaging activities will be soon translated in english) == <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 5d7b375e95f0f6467fb74db9eba83d075d6e6798 177 176 2013-02-12T11:09:23Z Collet 2 wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> [[File:ChCollet.jpg|frameless|center|150px]] </td> </table> == Activities == <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 772ca680dce86a09c290848abe557a3ec73865f9 0 39 182 2013-02-13T09:56:43Z Abdelmoulah 16 Created page with "<big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - Fr..." wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Office : '''C225''' <br /> E-mail : '''abdmouleh@unistra.fr'''<br /> |} </table> == Research== Phd: Reconstruction tomographique de propriétés quantitatives et qualitatives d'images http://geodisi.u-strasbg.fr/ <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=Abdelmoulah&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ==Teaching== ==2012-2013 '''IUT Robert Schuman''' == * TD/TP Data Base and SQL2 * TD/TP Network configuration * TD Algorithms and data structures == 2009-2012 '''IUT Louis Pasteur'''== * TD Statistics * TD Mathématics * TD Statistic Inference * TP Programming in C * Course/TP Microsoft office ae28413297fe1c474a9950f8effa127d39849ade 183 182 2013-02-13T10:00:35Z Abdelmoulah 16 wikitext text/x-wiki <big>'''Phd student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br /> Office : '''C225''' <br /> E-mail : '''abdmouleh@unistra.fr'''<br /> |} </table> == Research== Phd: Reconstruction tomographique de propriétés quantitatives et qualitatives d'images http://geodisi.u-strasbg.fr/ <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=Abdelmoulah&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ==Teaching== ==2012-2013 '''IUT Robert Schuman''' == * TD/TP Data Base and SQL2 * TD/TP Network configuration * TD Algorithms and data structures == 2009-2012 '''IUT Louis Pasteur'''== * TD Statistics * TD Mathématics * TD Statistic Inference * TP Programming in C * Course/TP Microsoft office f57dbb0cfeabd7bd2ffb9cf83c15c8c61109318b 0 31 186 124 2013-02-14T09:14:49Z Faisan 27 /* Publications */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 9ffe362e8316f71b87ad5cd54b61d472e19a9025 0 26 187 97 2013-02-14T15:48:29Z Mazo 15 /* Description of Activities */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == My activities fall within the mathematics of discrete imagery: topology, geometry, measure. ===== Discrete topology ===== I am interested in topological models for binary discrete images per se, that is, that do not depend on some underlying Euclidean reality. This include the graph-theoretical approach or the cellular approach and does not exclude appealing to notions built on continuity, as homotopy, thanks to the use of partial orders on domains. Besides, I am working on extending such models to images whose codomains are partially ordered sets -- from labels images to grey-level images -- so we can take into account not only the topology of each object in an image but also the topological relations between these objects. ===== Discretization ===== My works focus on Hausdorff distance based discretizations with the goal to extend such discretization schemes to grey-level and color images while describing their geometrical, topological and convergence properties. ===== Estimation of geometrical parameters ===== I study how to start the construction of a measure and integration theory on a discrete space that must have some convergence property towards the equivalent theory in the Euclidean space. ===== Tomography ===== My research is concerned with deformable object reconctruction from non-oriented projections. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6507e0a9d1bb2bed562fe28f3435e148b6680811 189 187 2013-02-15T10:46:36Z Mazo 15 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> ( IUT : + 33 (0) 3 68 85 84 31 )<br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == My activities fall within the mathematics of discrete imagery: topology, geometry, measure. ===== Discrete topology ===== I am interested in topological models for binary discrete images per se, that is, that do not depend on some underlying Euclidean reality. This include the graph-theoretical approach or the cellular approach and does not exclude appealing to notions built on continuity, as homotopy, thanks to the use of partial orders on domains. Besides, I am working on extending such models to images whose codomains are partially ordered sets -- from labels images to grey-level images -- so we can take into account not only the topology of each object in an image but also the topological relations between these objects. ===== Discretization ===== My works focus on Hausdorff distance based discretizations with the goal to extend such discretization schemes to grey-level and color images while describing their geometrical, topological and convergence properties. ===== Estimation of geometrical parameters ===== I study how to start the construction of a measure and integration theory on a discrete space that must have some convergence property towards the equivalent theory in the Euclidean space. ===== Tomography ===== My research is concerned with deformable object reconctruction from non-oriented projections. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> d5aff6031e0efb535f855fd898bf3d98bbb53055 192 189 2013-02-15T16:21:12Z Mazo 15 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> ( IUT : + 33 (0) 3 68 85 84 31 )<br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == My activities fall within the mathematics of discrete imagery: topology, geometry, measure. ===== Discrete topology ===== I am interested in topological models for binary discrete images per se, that is, that do not depend on some underlying Euclidean reality. This include the graph-theoretical approach or the cellular approach and does not exclude appealing to notions built on continuity, as homotopy, thanks to the use of partial orders on domains. Besides, I am working on extending such models to images whose codomains are partially ordered sets -- from labels images to grey-level images -- so we can take into account not only the topology of each object in an image but also the topological relations between these objects. ===== Discretization ===== My works focus on Hausdorff distance based discretizations with the goal to extend such discretization schemes to grey-level and color images while describing their geometrical, topological and convergence properties. ===== Estimation of geometrical parameters ===== I study how to start the construction of a measure and integration theory on a discrete space that must have some convergence property towards the equivalent theory in the Euclidean space. ===== Tomography ===== My research is concerned with deformable object reconctruction from non-oriented projections. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 991ef8c74c9eff1b3d83e3118cec48a89a7584ed 0 3 188 6 2013-02-14T15:50:32Z Tajine 11 wikitext text/x-wiki '''The website of the team is in progress!''' Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[http://geodisi.u-strasbg.fr/gdmm/Presentation_anglais.html Discrete Geometry and Mathematical Morphology]''' : développement de géométries discrètes et de modèles topologiques adaptés à l'analyse et à la synthèse d'images, et élaboration de nouveaux opérateurs morphologiques en traitement d'images. Notre objectif est de bâtir une algorithmique robuste et performante en imagerie et de développer des outils purement discrets pour étudier les propriétés différentielles, géométriques, topologiques et morphologiques des objets, pour des applications en segmentation de structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 9d227cd743b5b6faa9ddf14693c6bff1671872b8 0 24 190 93 2013-02-15T15:14:49Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] </P> <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=ronse&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 45cd3662ddefe9239ec46dc44f0e14d590769781 193 190 2013-02-15T18:28:39Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : cronse@unistra.fr<br> Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] </P> <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=ronse&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> db8d2e45d8a2e89eef93dd929829b5686a52010d 0 41 194 2013-02-18T12:21:12Z Collet 2 Created page with "* [http://dahlia.oca.eu/ Official webpage for ANR Dahlia] (2009-2013) <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/cubevisualization.php </anyweb> <anyweb> http://lsiit-miv...." wikitext text/x-wiki * [http://dahlia.oca.eu/ Official webpage for ANR Dahlia] (2009-2013) <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/cubevisualization.php </anyweb> <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/cubefusion.php </anyweb> c908fc61e54c544980f38db419594cb9503a1c16 0 5 195 51 2013-02-18T12:38:03Z Mazet 3 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[File:VincentMazet.png|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] 025940a4856a143decf9a7a05c58212838a6087f 0 6 196 108 2013-02-20T14:27:21Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", Alix Bouchon (2012 - ), co-supervised with Fabrice Heitz * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", Antoine Grigis (2009-2012), co-supervised with Fabrice Heitz and Jean-Paul Armspach. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", Hervé Boisgontier (2006-2010), co-supervised with Fabrice Heitz and Jean-Paul Armspach. Teaching : * Signal processing (1A/2A) at école Telecom Physique Strasbourg * "[http://lsiit-miv.u-strasbg.fr/miv/index.php?contenu=dispositifs_imagerie_medicale.php Medical image devices ]" in the Master "Images, Sciences et Technologies de l'Information" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 3d259ea5c55a25d084c436cbb4230337c2eb47fa 201 196 2013-03-04T14:37:52Z Noblet 4 /* Description of Activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://lsiit-miv.u-strasbg.fr/miv/index.php?contenu=dispositifs_imagerie_medicale.php Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6a6cfc53239a300a84b7328e28fdf12c2af2f9de 202 201 2013-03-04T15:18:05Z Noblet 4 /* Description of Activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> e0121e648866f0cdceb305c45ebdd5bd3cd6a47a 0 34 198 142 2013-02-25T13:13:16Z Bouthillon 25 wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' ecd3d0fafb7a461ad2700616b4ed1556780b5f3e 199 198 2013-02-25T13:25:30Z Bouthillon 25 wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === :'''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' Director: Christophe Collet Co-director: Yoshitate Takakura 11bf7d6869db06312ea4c2bd30add8e5079723df 200 199 2013-02-25T13:26:37Z Bouthillon 25 wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === :'''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' Director: [[Christophe Collet]] Co-director: Yoshitate Takakura 8b8d5826c26609dfc6d935c345edf82d3a6dcdbc 0 29 203 116 2013-03-08T07:30:08Z Dufour 19 /* Research activities */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:Adufour.JPG|frameless|center]] </td> </table> == Research activities == <center> ===<big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big>=== </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] ==== Vascular segmentation in 3D angiographic images ==== The segmentation of vascular structures consist in extract the relevant information from the angiographic data, to allow radiologist to focus only on the information analysis. Works upstream and based on mathematical morphology are fitting on the angiographic data segmentation. They are been improve and applied on our data. <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff ==== Cerebro-vascular atlas ==== To integrate anatomical knowledge in the segmentation process, the knowledge should be modelling. The second goal of this thesis consist to develop vascular models, and the generating pipeline. <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] <br /> <br /> <center> ===<big>Master : '''''Filtering vascular flow artifacts in fMRI.'''''</big>=== </center> Supervisor: Daniel Gounot Co-Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] Report <ref></ref> ==== Problematic ==== Since 1990s the field of magnetic resonance imaging (MRI) have evolved to enable the study of brain functional activity, this is named the fonctional MRI (fMRI). The localization of the activated areas is determined by statistical calculation and is function of the considered paradigm1. That localization is based on the BOLD effect (Blood Oxygen Level Dependent) which induces the local increase of MRI signal. Nevertheless, these variations are very low (around 1%). It is the reason why it is essential to reduce the noise contained by fMRI images such as patient’s movements, respiratory or cardiac noise. Moreover, [Dagli, NeuroImage, 1999] have demonstrated that the heartbeats in the vascular network induce change into the fMRI signal. The aim of these works is determining the influence of the brain vascularization in fMRI, in order to reduce it. The study of brain vascularity is based on anatomical knowledge obtained by brain angiography atlases. ====Contribution ==== These works introduce a first approach of the vascular atlas, used to improve the detection of brain activity. The first step of these works is creating a cerebral vascular atlas with the required information, that is to say only the intracranial vessels network. The second step is to determine the influence of vascular NMR signal in the activity detection. This part of work is difficult and takes a lot of time, because of the number of way to determine this influence. Last but not least, this report present the creation of a toolbox, which permit to reduce the noise caused by cardiac signals in cerebral vascular network. == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= afee900a32d5bfdbeb7475f884d026a02996abda 204 203 2013-03-08T07:30:28Z Dufour 19 /* Master : Filtering vascular flow artifacts in fMRI. */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 13<br /> Office : '''B252''' <br /> Mail : '''alice.dufour@unistra.fr'''<br /> |} </td> <td align=right> [[File:Adufour.JPG|frameless|center]] </td> </table> == Research activities == <center> ===<big>PhD : '''''Segmentation and modeling of cerebrovascular structures in 3D medical imaging.'''''</big>=== </center> Advisor: [[Christian Ronse]] Co-adivsor: Joseph Baruthio Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] ==== Vascular segmentation in 3D angiographic images ==== The segmentation of vascular structures consist in extract the relevant information from the angiographic data, to allow radiologist to focus only on the information analysis. Works upstream and based on mathematical morphology are fitting on the angiographic data segmentation. They are been improve and applied on our data. <center> <gallery caption="Segmentation of the brain arterial network"> File:PC_PC.png|<center>''Low resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:TOF_TOF_K5.png|<center>''High resolution image (In gree : true positive, in yellow : false negative et in red : false positive).'' </center> File:3Dseg.eps.png|<center>''3D visualisation of the segmentation of Willis circle.'' </center> </gallery> </center> ''Collaborations'' : [[Benoît Naegel]], [http://tankyevych.toile-libre.org/ Olena Tankyevych], [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] and Valérie Wolff ==== Cerebro-vascular atlas ==== To integrate anatomical knowledge in the segmentation process, the knowledge should be modelling. The second goal of this thesis consist to develop vascular models, and the generating pipeline. <center> <gallery caption="Cerebro-vascular atlas"> File:Atlas_densite_proba.png|''Atlas of vessel probability density'' File:Atlas_art_vei.png|''Vein (blue)/artery(red) probability.'' File:Atlas_taille_vaisseaux.png|''Vessel size. From blue 0.5mm to red 5mm.'' </gallery> </center> ''Collaborations'' : [http://tankyevych.toile-libre.org/ Olena Tankyevych] and [http://hugues.zahlt.info/bienvenue.html Hugues Talbot] <br /> <br /> <center> ===<big>Master : '''''Filtering vascular flow artifacts in fMRI.'''''</big>=== </center> Supervisor: Daniel Gounot Co-Supervisor:[https://dpt-info.u-strasbg.fr/~passat/main.htm Nicolas Passat] Report ==== Problematic ==== Since 1990s the field of magnetic resonance imaging (MRI) have evolved to enable the study of brain functional activity, this is named the fonctional MRI (fMRI). The localization of the activated areas is determined by statistical calculation and is function of the considered paradigm1. That localization is based on the BOLD effect (Blood Oxygen Level Dependent) which induces the local increase of MRI signal. Nevertheless, these variations are very low (around 1%). It is the reason why it is essential to reduce the noise contained by fMRI images such as patient’s movements, respiratory or cardiac noise. Moreover, [Dagli, NeuroImage, 1999] have demonstrated that the heartbeats in the vascular network induce change into the fMRI signal. The aim of these works is determining the influence of the brain vascularization in fMRI, in order to reduce it. The study of brain vascularity is based on anatomical knowledge obtained by brain angiography atlases. ====Contribution ==== These works introduce a first approach of the vascular atlas, used to improve the detection of brain activity. The first step of these works is creating a cerebral vascular atlas with the required information, that is to say only the intracranial vessels network. The second step is to determine the influence of vascular NMR signal in the activity detection. This part of work is difficult and takes a lot of time, because of the number of way to determine this influence. Last but not least, this report present the creation of a toolbox, which permit to reduce the noise caused by cardiac signals in cerebral vascular network. == Teaching activities == === 2012-2013: IUT Robert Schuman === *P32: Abstract data type, and structure (Java). *S22: Undestand and know the systems(Shell, python). === 2011-2012: UFR Math-Info === *L2 Conputer Science: Computer architecture. Assembly langage. *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. === 2010-2011: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Math: Oriented Object Programming === 2009-2010: UFR Math-Info === *L2 Math-Physics-Chemical: Applied programming. Introduction to Octave. *L3 Biology: Algorithm and data structure. Introduction to C. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?annee1=&annee2=&team=toutes&project=&display=rap&opt_file=&opt_books=&opt_articles=&opt_conf=&opt_misc=&opt_thesis=&opt_contrat=&opt_interne=&idAuthor=1573&nbPerPage=20&pg=1&title=&year=-1&list=&search=0&Hide=0&Affimg= dedd0669eefbe8ff966f1d68c584c54aeca7362b 6 42 205 2013-03-08T07:33:13Z Dufour 19 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 43 206 2013-03-14T13:22:45Z Mazet 3 Photo de groupe du 14/03/2013 wikitext text/x-wiki Photo de groupe du 14/03/2013 1cae5dd64d01f5e02fa2af292203c3c70373b7d9 0 3 207 188 2013-03-14T13:23:08Z Mazet 3 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|800px]]<br /> Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[http://geodisi.u-strasbg.fr/gdmm/Presentation_anglais.html Discrete Geometry and Mathematical Morphology]''' : développement de géométries discrètes et de modèles topologiques adaptés à l'analyse et à la synthèse d'images, et élaboration de nouveaux opérateurs morphologiques en traitement d'images. Notre objectif est de bâtir une algorithmique robuste et performante en imagerie et de développer des outils purement discrets pour étudier les propriétés différentielles, géométriques, topologiques et morphologiques des objets, pour des applications en segmentation de structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 1ab3cdda427c80a6daa3ba83da07eac1577cdd0d 247 207 2013-04-11T13:23:27Z Cronse 12 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|800px]]<br /> Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[Discrete Geometry and Mathematical Morphology]''' : développement de géométries discrètes et de modèles topologiques adaptés à l'analyse et à la synthèse d'images, et élaboration de nouveaux opérateurs morphologiques en traitement d'images. Notre objectif est de bâtir une algorithmique robuste et performante en imagerie et de développer des outils purement discrets pour étudier les propriétés différentielles, géométriques, topologiques et morphologiques des objets, pour des applications en segmentation de structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 9f5f02b4e0573854f40d31229da560e9f747615b 248 247 2013-04-11T13:24:09Z Cronse 12 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|800px]]<br /> Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : développement de géométries discrètes et de modèles topologiques adaptés à l'analyse et à la synthèse d'images, et élaboration de nouveaux opérateurs morphologiques en traitement d'images. Notre objectif est de bâtir une algorithmique robuste et performante en imagerie et de développer des outils purement discrets pour étudier les propriétés différentielles, géométriques, topologiques et morphologiques des objets, pour des applications en segmentation de structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] df3b1c6c7c4d341810e66cb60135e91d575b2ade 251 248 2013-04-11T13:35:47Z Cronse 12 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|800px]]<br /> Les thèmes de recherche de l’équipe sont centrés sur l’imagerie, et plus particulièrement sur le traitement et l’analyse d’ensembles d’images, sur la vision par ordinateur et sur les interactions de la vision avec la synthèse. L’objectif des travaux de l’équipe est le développement de méthodes et d’algorithmes novateurs, en traitement d’images et en vision, en s’appuyant sur de solides bases mathématiques. L’unité de l’équipe réside dans les aspects méthodologiques du traitement et de l’analyse multi-images (ensembles temporels, spatiaux, multimodaux, multispectraux, multicapteurs d’images, avec prise en compte d’informations complémentaires sous forme de connaissances a priori ou de bases d’images de référence) et dans l'étude des transferts de propriétés qualitatives et quantitatives entre les espaces euclidiens représentant la « réalité » et les espaces discrets représentant les données et leurs traitements. Les objectifs peuvent se résumer comme suit : * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Medical image processing]]''' : développement de modèles et d’algorithmes innovants pour la mise en correspondance, la segmentation, la détection de changements et le suivi temporel, la création et l’utilisation d’atlas, l’interprétation d’informations anatomiques et fonctionnelles, normales ou pathologiques. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] bf9d149def3f1edd64f0ccbe3c081dcda84298a2 6 44 208 2013-03-20T17:23:49Z Faisan 27 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 31 209 186 2013-03-20T17:24:08Z Faisan 27 /* Description of Activities */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Description des activités == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 2b871233bb9f5ea8208fbd55fd1b8de8d99b4302 210 209 2013-03-20T17:24:49Z Faisan 27 /* Description of Activities */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Description des activités == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Description des activités == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f2626c86002ecba117258fd743c7b9f51914ed11 211 210 2013-03-20T17:25:18Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Description des activités == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 11298eafba2e63a5f4e338b84f612a3fcc07ba7d 212 211 2013-03-20T17:29:10Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 179359a85c755c7416a917d55bb53ef0f9cb7519 213 212 2013-03-20T17:29:32Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:photoid22.jpeg|frameless|center|upright=1.9]] </td> </table> == Description of Activities == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (left) and by using the pseudo-inverse (right) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:polar.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in the two following articles. In the second article, the neighborhood of v is not considered (N=1). * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> b4f8f2dd35cbae2a13ebc15b6703fffa4f8f665a 214 213 2013-03-21T09:58:58Z Faisan 27 /* Description of Activities */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:photoid22.jpeg|frameless|center|upright=1.9]] </td> </table> == Description of Activities == === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (right) and by using the pseudo-inverse (left) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:nlm.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in: * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 76f53db646f7d3a55a89db3d626c4e1bb4195216 0 23 215 171 2013-03-21T14:41:01Z Boubchir 9 /* Journal articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. R. Bahnasy, N. A. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://www.setit.rnu.tn/final/P4969515.pdf Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference: Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 6dfb6343037c00c90566a914696e51dc7646b68c 246 215 2013-04-05T13:10:39Z Boubchir 9 /* Conference and workshop articles */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == {| |- | [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) |- | Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] |- | Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) |- |} == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. b39f79048cc0ac80f201fef7aaec56e289ec5862 0 4 216 197 2013-03-21T14:55:21Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 0fcb1d167868ef5b846427f414d4ad0bdfc481a3 223 216 2013-03-27T13:54:23Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || || |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] d2035d68038c4f0960299e25cf3be94952addda3 226 223 2013-03-28T14:41:11Z Charbonnier 37 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | NAEGEL Benoît || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 8d72e9cd109fba7e64fdffa4386f7a63bbd4729f 249 226 2013-04-11T13:26:45Z Cronse 12 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | TAJINE Mohamed || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] c54ef45f5386cb939a2aa1974ac3187a76ddf67c 250 249 2013-04-11T13:27:58Z Cronse 12 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | SCHWEITZER Marc || Research Engineer || || || |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] eee9d54993123ffbaf547518165c639d44f087b5 252 250 2013-04-12T08:25:20Z Schweitzer 8 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || || || |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 926798402e7a8f12d388976f9f184683688fbb1c 6 45 217 2013-03-26T15:17:02Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 46 218 2013-03-26T15:17:38Z Naegel 6 Created page with "'''Financement''' : Allocation de recherche. '''Contacts''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naeg..." wikitext text/x-wiki '''Financement''' : Allocation de recherche. '''Contacts''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naegel : [mailto:%62%2ena%65g&#101;%6c&#64;u%6ei&#115;&#116;%72a%2e%66%72 b.naegel(at)unistra.fr] '''Candidature''' : Dossier comportant : * CV détaillé * résultats et '''classements''' pour les deux années de Master * lettre de motivation '''Sujet au format pdf''' : [[media:sujetEN_Ronse_Naegel.pdf | SujetEn.pdf]] '''Profil du candidat''' * Master 2 en Informatique ou Mathématiques Discrètes * Expérience en traitement d'images * Compétences en programmation C++ c8fdc518e0d35e7e4765717e01b73781b06dbc6d 219 218 2013-03-26T15:22:03Z Naegel 6 wikitext text/x-wiki '''Contacts''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naegel : [mailto:%62%2ena%65g&#101;%6c&#64;u%6ei&#115;&#116;%72a%2e%66%72 b.naegel(at)unistra.fr] '''Application''' : * detailed curriculum vitae * results and '''ranks''' for the two years of Master * motivation letter '''Thesis subject:''' : [[media:sujetEN_Ronse_Naegel.pdf | ThesisSubject.pdf]] '''Background''' * Master 2 in Computer Science or Applied Mathematics * Background in image processing * Experience in C++ programming 52ff9cb8d499c48750ce2e95b2d324dd6e6e872c 220 219 2013-03-26T15:22:17Z Naegel 6 wikitext text/x-wiki '''Contacts''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naegel : [mailto:%62%2ena%65g&#101;%6c&#64;u%6ei&#115;&#116;%72a%2e%66%72 b.naegel(at)unistra.fr] '''Application''' : * detailed curriculum vitae * results and '''ranks''' for the two years of Master * motivation letter '''Thesis subject:''' [[media:sujetEN_Ronse_Naegel.pdf | ThesisSubject.pdf]] '''Background''' * Master 2 in Computer Science or Applied Mathematics * Background in image processing * Experience in C++ programming d9442f200d628df1bbe03648a3ae8b058792d805 221 220 2013-03-26T15:22:41Z Naegel 6 wikitext text/x-wiki '''Contacts:''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naegel : [mailto:%62%2ena%65g&#101;%6c&#64;u%6ei&#115;&#116;%72a%2e%66%72 b.naegel(at)unistra.fr] '''Application:''' : * detailed curriculum vitae * results and '''ranks''' for the two years of Master * motivation letter '''Thesis subject:''' [[media:sujetEN_Ronse_Naegel.pdf | ThesisSubject.pdf]] '''Background:''' * Master 2 in Computer Science or Applied Mathematics * Background in image processing * Experience in C++ programming b51d034933ad6b9043ae140676d7393ea8220b23 222 221 2013-03-26T15:23:39Z Naegel 6 wikitext text/x-wiki '''Contacts:''' : * Christian Ronse : [mailto:&#99;r%6f%6e%73%65&#64;u%6e%69st&#114;a%2ef%72 cronse(at)unistra.fr] * Benoît Naegel : [mailto:%62%2ena%65g&#101;%6c&#64;u%6ei&#115;&#116;%72a%2e%66%72 b.naegel(at)unistra.fr] '''Application:''' : * detailed curriculum vitae * results and '''ranks''' for the two years of Master * motivation letter '''Thesis subject:''' * Title: "Level sets for object detection" [[media:sujetEN_Ronse_Naegel.pdf | ThesisSubject.pdf]] '''Background:''' * Master 2 in Computer Science or Applied Mathematics * Background in image processing * Experience in C++ programming 4f4e0ba014e0569d597441df43b2457d0da48751 100 30 224 117 2013-03-28T08:56:00Z Collet 2 wikitext text/x-wiki Responsable : [[Christophe Collet]] <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[en:Probabilistic analysis for space & Earth observations]] 57bf7fd5b011f1e3efce6b70a0627ce8f0e8a56d 225 224 2013-03-28T09:03:43Z Collet 2 wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein, A. Jalobeanu <br /> ''PhD in progress'' : T.T. Ngo <br /> ''Previous PhD'' : F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[en:Probabilistic analysis for space & Earth observations]] 5f7dd8daa658ef4e1d237bcb4ed43b96123a02fb 100 47 227 2013-03-28T14:42:58Z Cronse 12 Created page with "Head : [[Mohamed TAJINE]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de..." wikitext text/x-wiki Head : [[Mohamed TAJINE]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] e00e2189c93046096fee7dd1ddd2c22376401207 232 227 2013-03-28T14:45:09Z Cronse 12 wikitext text/x-wiki Head : [[Mohamed TAJINE]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] a51f731255134a7f0bd0aa60e465e234bad78b63 237 232 2013-03-28T15:09:03Z Cronse 12 wikitext text/x-wiki Head : [[Mohamed TAJINE]] This theme regroups activities on geometric, topological, algebraic and discrete models for imaging. Firstly in [http://geodisi.u-strasbg.fr/ Discrete Geometry], we study digital geometries and topologies, as well as discrete tomography. The mathematical tools we develop are suitable for image analysis and synthesis. The objectives are firstly to build a robust and powerful algorithmics in imaging, controlling treatment errors related to the use of real numbers, and secondly to develop tools to study different properties (differential, geometric and topological) of objects, both discrete and Euclidean. More generally, we study the transfer of properties between Euclidean spaces representing "reality" and the discrete spaces representing the computer. Next, in [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology], we study the construction of new operators for morphological processing image processing, as well as the extension of morphology to new types of objects. Work is also carried out on morphological image segmentation and the application of mathematical morphology to color or multispectral images. The preferred field of application is currently in medical imaging. ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 1862785df1aea53093f1a28721309559eed30ed0 238 237 2013-03-28T15:26:05Z Cronse 12 wikitext text/x-wiki Head : [[Mohamed TAJINE]] This theme regroups activities on geometric, topological, algebraic and discrete models for imaging. Firstly in [http://geodisi.u-strasbg.fr/ Discrete Geometry], we study digital geometries and topologies, as well as discrete tomography. The mathematical tools we develop are suitable for image analysis and synthesis. The objectives are firstly to build a robust and powerful algorithmics in imaging, controlling treatment errors related to the use of real numbers, and secondly to develop tools to study different properties (differential, geometric and topological) of objects, both discrete and Euclidean. More generally, we study the transfer of properties between Euclidean spaces representing "reality" and the discrete spaces representing the computer. Next, in [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology], we study the construction of new operators for morphological processing image processing, as well as the extension of morphology to new types of objects. Work is also carried out on morphological image segmentation and the application of mathematical morphology to color or multispectral images. The preferred field of application is currently in medical imaging. ===== Members ===== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[Etienne_Baudrier|BAUDRIER Etienne]] * DA COL-JACOB Marie-Andrée * [[ Alice Dufour|DUFOUR Alice]] * [[ Khoshnoudirad_Daniel_Balal | KHOSHNOUDIRAD Balal Daniel ]] * [[Loïc Mazo|MAZO Loïc]] * [[Benoît Naegel|NAEGEL Benoît]] * [[PHAN Minh Son|PHAN Son]] * [[Christian Ronse|RONSE Christian]] * [[Mohamed TAJINE|TAJINE Mohamed]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 833eda23d52d378f153c28ba384002c200133b73 6 48 228 2013-03-28T14:43:21Z Cronse 12 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 49 229 2013-03-28T14:43:31Z Cronse 12 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 50 230 2013-03-28T14:43:42Z Cronse 12 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 51 231 2013-03-28T14:44:42Z Charbonnier 37 Created page with "<big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg ..." wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel : + 33 (0) 3 88.77.46.44<br /> Fax : + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email : ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> cc49fcc4c28104c7691aee6a060016793fbfa6ee 236 231 2013-03-28T14:50:34Z Charbonnier 37 wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 515036d9fd2acc5343c776bf38b96fdc675d10fb 239 236 2013-03-28T15:31:26Z Charbonnier 37 wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust-estimation == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 1d5bf4e7b1089c32333301339c8876b04ac13081 240 239 2013-03-28T15:34:26Z Charbonnier 37 wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust estimation == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6c8296d17c1070313ea5298490a9e4b250f391d7 241 240 2013-03-28T15:34:50Z Charbonnier 37 wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust estimation == == Deformable models == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 95dc61174303e570b0744fdf10d33219c8c22b90 244 241 2013-03-28T17:05:02Z Charbonnier 37 /* Publications */ wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust estimation == == Deformable models == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications (see also: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> a0d0d3509bd7eb5401e74a0026f133046c68a8d6 0 52 233 2013-03-28T14:47:49Z Cronse 12 Created page with "[[File:MohamedTajine.gif|vignette]] [[fr:Mohamed Tajine]] University Professor in Computer Science<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> ..." wikitext text/x-wiki [[File:MohamedTajine.gif|vignette]] [[fr:Mohamed Tajine]] University Professor in Computer Science<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ 54dcf291a7877416f02c245f743572ddddaea5ac 234 233 2013-03-28T14:48:52Z Cronse 12 wikitext text/x-wiki [[File:MohamedTajine.gif|vignette]] [[fr:Mohamed TAJINE]] University Professor in Computer Science<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ 7a15b0fa7c037e6d411fbcc6c2932be40672f196 235 234 2013-03-28T14:50:23Z Cronse 12 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] University Professor in Computer Science<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ 8df958ef8d35d248a68e6562bb58d464fc3cccda 6 53 242 2013-03-28T16:35:06Z Noblet 4 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 6 243 202 2013-03-28T16:35:25Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> bd9e20f0245902721829bc23b4f8dd3a32c416a6 0 26 245 192 2013-04-03T07:14:02Z Mazo 15 wikitext text/x-wiki [[fr : Loïc Mazo]] <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> ( IUT : + 33 (0) 3 68 85 84 31 )<br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Description of Activities == My activities fall within the mathematics of discrete imagery: topology, geometry, measure. ===== Discrete topology ===== I am interested in topological models for binary discrete images per se, that is, that do not depend on some underlying Euclidean reality. This include the graph-theoretical approach or the cellular approach and does not exclude appealing to notions built on continuity, as homotopy, thanks to the use of partial orders on domains. Besides, I am working on extending such models to images whose codomains are partially ordered sets -- from labels images to grey-level images -- so we can take into account not only the topology of each object in an image but also the topological relations between these objects. ===== Discretization ===== My works focus on Hausdorff distance based discretizations with the goal to extend such discretization schemes to grey-level and color images while describing their geometrical, topological and convergence properties. ===== Estimation of geometrical parameters ===== I study how to start the construction of a measure and integration theory on a discrete space that must have some convergence property towards the equivalent theory in the Euclidean space. ===== Tomography ===== My research is concerned with deformable object reconctruction from non-oriented projections. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> d38248c1d2f4c5854d6d95d799cd74240587d484 0 4 253 252 2013-04-12T08:26:53Z Schweitzer 8 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | BAUDRIER Etienne || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] ae72c023980bad03fd2d86e597b716c256ad3166 271 253 2013-05-02T15:22:35Z Baudrier 14 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BENTAIEB Aicha || Research Engineer || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | CHAMP Frédéric || Research Engineer || || || |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] eb59625f6b03f35a93a8b65e4dc1dfde0abcc541 292 271 2013-06-17T18:25:21Z Schweitzer 8 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | [[Aicha Bentaieb | BENTAIEB Aicha ]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || abentaieb @ unistra.fr |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[Frédéric Champ | CHAMP Frédéric]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || champ @ unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] e7d2a2595f36fb34260bf0653a50ffcd7540d539 0 54 254 2013-04-12T08:41:43Z Schweitzer 8 Created page with "<big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX ..." wikitext text/x-wiki <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> e-mail : '''marc.schweitzer@unistra.fr'''<br /> |} </td> <td align=right> [[File:m_schweitzer.jpg|frameless|center]] </td> </table> == Activity == === Project [[ERC FBrain]] === ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== Motion Correction and reconstruction on anatomic foetus MRI ==== [[File:reconstruction.png | center | thumb | <b>Left</b> : original image <br /><b>Right</b> : reconstructed image ]] ==== With ==== * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Francois Rousseau]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=schweitzer&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 730fa1c2867bf7eed39b3551ee113077cd92c1e5 255 254 2013-04-12T08:42:02Z Schweitzer 8 wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> e-mail : '''marc.schweitzer@unistra.fr'''<br /> |} </td> <td align=right> [[File:m_schweitzer.jpg|frameless|center]] </td> </table> == Activity == === Project [[ERC FBrain]] === ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== Motion Correction and reconstruction on anatomic foetus MRI ==== [[File:reconstruction.png | center | thumb | <b>Left</b> : original image <br /><b>Right</b> : reconstructed image ]] ==== With ==== * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Francois Rousseau]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=schweitzer&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 30b895c007f4623e73ed65015c5f15dfbf8cb743 0 34 256 200 2013-04-24T13:47:43Z Bouthillon 25 English version of the thesis description wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' :Director de thèse : [[Christophe Collet]] :Co-director : Yoshitate Takakura The aim of that thesis is to create an automated system that improve contaminants detection time while keeping a false detection rate as low as possible. To accomplish that, I split my work in three main tasks: * Building of the optronic system that will acquire the signal. * System caracterization and signal acquisition process modeling. * Signal/Image processing in order to rapidly detect and count the contaminants. 5637489f62ef428d7ef9e1a6c9621d080e3b3bc6 257 256 2013-04-24T13:48:18Z Bouthillon 25 wikitext text/x-wiki <big>'''PhD student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 45 93<br /> Office: '''B251''' <br /> E-mail: '''marine.bouthillon@etu.unistra.fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities== === PhD subject === '''Discrimination between micro-organisms and their environment using multivariate signal processing, for robust and rapid counting and detection.''' :Director : [[Christophe Collet]] :Co-director : Yoshitate Takakura The aim of that thesis is to create an automated system that improve contaminants detection time while keeping a false detection rate as low as possible. To accomplish that, I split my work in three main tasks: * Building of the optronic system that will acquire the signal. * System caracterization and signal acquisition process modeling. * Signal/Image processing in order to rapidly detect and count the contaminants. 3557c71ccd462b63f59ed07c5b5f535fa9ef18ed 0 55 258 2013-05-02T14:45:14Z Baudrier 14 Created page with "<big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - Fra..." wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - France <br/> <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality 224ee3659a0ec3b1d10ae534b87a58c3965e45ee 259 258 2013-05-02T14:51:16Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - France <br/> <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujet.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [[PHAN_Minh_Son | Phan Minh Son]] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. 2b13be273b1026198555df655179c35fd40db6a7 260 259 2013-05-02T14:51:46Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - France <br/> <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujet.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [[PHAN_Minh_Son|Minh Son PHAN]] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. 32e12395b604309954af7dbf1087c2826d1a40f0 261 260 2013-05-02T14:58:29Z Baudrier 14 /* Theses in progress */ wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - France <br/> <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujet.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [[PHAN_Minh_Son|Minh Son PHAN]] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} 5908b13e59d215e14964e9e09e6c14cadbf389ea 262 261 2013-05-02T15:01:37Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> <br/> BP 10413 67412 Illkirch Cedex - France <br/> <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujet.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [[PHAN_Minh_Son|Minh Son PHAN]] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} 66df4769045a760dea12d6f1990c221791916263 263 262 2013-05-02T15:04:47Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujet.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} e14df9b768570ebe6873503c570022865eeac7af 264 263 2013-05-02T15:05:30Z Baudrier 14 /* Proposal internship */ wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} 86e287d99bad690947724cd868eacc67dd004d08 265 264 2013-05-02T15:10:01Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'' 'C221''' <br/> Email:'' baudrier (at) unistra (dot) fr''' <br/> Homepage:'' 'http://icube-miv.unistra.fr/fr/Etienne_Baudrier/''' <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] ae5cd909f912b5e4e5f265e65980d21731802455 266 265 2013-05-02T15:12:34Z Baudrier 14 wikitext text/x-wiki <big>''''Lecturer'''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage:[[Etienne_Baudrier|http://icube-miv.unistra.fr/en/Etienne_Baudrier/]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] c46d3e9138fa0a970f0335e1dca8686a72062dd1 267 266 2013-05-02T15:13:10Z Baudrier 14 wikitext text/x-wiki <big>'''Lecturer''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage:[[Etienne_Baudrier|http://icube-miv.unistra.fr/en/Etienne_Baudrier/]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] a3905204e56f7b8779cc188e3ad581daf5aaf76f 268 267 2013-05-02T15:17:10Z Baudrier 14 wikitext text/x-wiki <big>'''Lecturer''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, Interdisciplinary Exploratory Project for Mathematical, Biology and Computing of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, white ANR project === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 2c74a169e8e6093d6f555e95afd67c74b406f460 269 268 2013-05-02T15:18:25Z Baudrier 14 /* Research Activity */ wikitext text/x-wiki <big>'''Lecturer''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, 'Interdisciplinary Exploratory Project for Mathematical, Biology and Computing' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011 - 2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, 'white ANR project' === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 65e1756c09ee7ccf3abc8c5976f8fe273d894141 270 269 2013-05-02T15:19:10Z Baudrier 14 /* Research Activity */ wikitext text/x-wiki <big>'''Lecturer''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 7b82187db7522fd9ef0ee9f82b930ebd3f220de5 272 270 2013-05-02T15:23:05Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 67412 Illkirch Cedex - France <br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] f079cc5e74e80fd551793ba846c5747d8844df7a 273 272 2013-05-02T15:25:21Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch Cedex - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office:'''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 97ebc1e4b4361f750b646ba2da67cefef0aeacf4 274 273 2013-05-02T15:26:10Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== Tomographic reconstruction of deformable objects [[: File: 2013_ReconstructionTomographiqueMoleculeDeformabletomo.pdf | sujetFrench.pdf]] ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 773dc56c5b23758f60d494333e3775208913a40a 275 274 2013-05-09T15:03:16Z Baudrier 14 /* Proposal internship */ wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email:'''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 1b7b557d7850ed3149e7efcdcf215f12bba65501 276 275 2013-05-09T15:03:47Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 642aa99b9e83c4167ed2276e363b97bf85429222 0 37 277 170 2013-05-10T09:11:47Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, statistics, inverse problems (courses taught at Telecom Physique Strasbourg). </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics for medical image analysis. <br> Application to shape analysis, diffusion-weighted MRI data analysis, brain connectivity and networks study. <br> In collaboration with Stéphane Kremer (IMIS team, iCube), Félix Renard (GIPSA lab), Sophie Achard (GIPSA lab), Chantal Delon-Martin (''Grenoble Institut des Neurosciences'' (GIN)), and Francis Schneider (Strasbourg University Hospital). <br> <br> Related co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011 <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012 <br> Th. Gkamas, ''Traitement d'images de résonance magnétique de diffusion: construction de modèles statistiques pour la détermination de facteurs pronostics d'éveil dans le cas du coma'', ongoing work. * Inverse problems. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, iCube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> <big>'''Main current responsibilities'''</big><br> : Responsable de l'option ''Acquisition et Traitement d'Images'' (ATI) (troisième année, Télécom Physique Strasbourg) : Responsable du parcours ''Image et Vision'' (IV), master 2 IRIV : Responsable du thème ''Traitement d'Images Médicales'' (équipe MIV) : Co-responsable (avec Jihad Zallat, iCube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire iCube <big>'''Bio'''</big><br> : Electrical Engineering Degree (Supélec, 1990) : PhD degree (Signal Processing, University of Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big>'''Selected publications'''</big><br> * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 1e21d1cb3e40bd0b9fe3790950451942b6f20a46 278 277 2013-05-10T09:39:01Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, statistics, inverse problems (courses taught at Telecom Physique Strasbourg). </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to shape analysis, diffusion-weighted MRI data analysis, brain connectivity and networks study. <br> In collaboration with Stéphane Kremer (IMIS team, iCube), Félix Renard (GIPSA lab), Sophie Achard (GIPSA lab), Chantal Delon-Martin (''Grenoble Institut des Neurosciences'' (GIN)), and Francis Schneider (Strasbourg University Hospital). <br> <br> Related co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011 <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012 <br> Th. Gkamas, ''Traitement d'images de résonance magnétique de diffusion: construction de modèles statistiques pour la détermination de facteurs pronostics d'éveil dans le cas du coma'', ongoing work. * Inverse problems. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, iCube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> <big>'''Main current responsibilities'''</big><br> : Responsable de l'option ''Acquisition et Traitement d'Images'' (ATI) (troisième année, Télécom Physique Strasbourg) : Responsable du parcours ''Image et Vision'' (IV), master 2 IRIV : Responsable du thème ''Traitement d'Images Médicales'' (équipe MIV) : Co-responsable (avec Jihad Zallat, iCube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire iCube <big>'''Bio'''</big><br> : Electrical Engineering Degree (Supélec, 1990) : PhD degree (Signal Processing, University of Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big>'''Selected publications'''</big><br> * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 7d1e596e6082037e9dc3f2f84b697abef053616e 100 56 279 2013-05-14T07:35:38Z Heinrich 29 Created page with "''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. ..." wikitext text/x-wiki ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Les travaux réalisés dans le cadre de ce thème de recherche ont pour objectif le développement de modèles, de méthodes, d'algorithmes et de codes informatiques pour le traitement de données issues d'imageurs biologiques et médicaux. Ces travaux donnent lieu à d'étroites collaborations entre traiteurs d’images, médecins, chercheurs en neurosciences et biologistes. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). En traitement d'images médicales, le centre d’intérêt principal, mais non exclusif, est l’imagerie cérébrale. Des algorithmes de mise en correspondance, de segmentation, de détection de changements, de suivi longitudinal, de création et d’utilisation d’atlas statistiques sont développés. La mise en œuvre des chaînes de traitement intervient dans le domaine clinique à des fins de diagnostic et de suivi thérapeutique et dans le domaine des neurosciences, afin d’aider à la compréhension des mécanismes cérébraux, tels par exemple que la maturation, le vieillissement et la conscience. L'imagerie biologique est un axe de recherche récent de notre équipe. Les travaux ont pour objet l'étude de la conformation de protéines, à partir de données issues de microscopie électronique et correspondant à des projections bidimensionnelles de ces protéines. Un autre volet de l'imagerie biologique est le suivi de d'évolutions et de l'organisation de structures biologiques (cellules, groupes de cellules, etc.) '''Principaux axes de recherche :''' * déformation et recalage d'images * segmentation d'images * reconstruction de données * création et utilisation d'atlas * détection de changements et suivi longitudinal * étude de la connectivité et des réseaux cérébraux * étude de la conformation 3D et 3D+t de protéines * analyse de structures biologiques par imagerie '''Mots-clefs :''' mise en correspondance, segmentation, reconstruction, détection de changements, suivi longitudinal, création et utilisation d’atlas, extraction et analyse d’informations anatomiques et fonctionnelles normales ou pathologiques, conformation de protéines, structures biologiques. [[fr:Medical_image_processing]] 29d0fc9eea877634677564b1deeb98448a34c3d1 280 279 2013-05-14T07:48:53Z Heinrich 29 wikitext text/x-wiki [[fr:Medical_image_processing]] ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Les travaux réalisés dans le cadre de ce thème de recherche ont pour objectif le développement de modèles, de méthodes, d'algorithmes et de codes informatiques pour le traitement de données issues d'imageurs biologiques et médicaux. Ces travaux donnent lieu à d'étroites collaborations entre traiteurs d’images, médecins, chercheurs en neurosciences et biologistes. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). En traitement d'images médicales, le centre d’intérêt principal, mais non exclusif, est l’imagerie cérébrale. Des algorithmes de mise en correspondance, de segmentation, de détection de changements, de suivi longitudinal, de création et d’utilisation d’atlas statistiques sont développés. La mise en œuvre des chaînes de traitement intervient dans le domaine clinique à des fins de diagnostic et de suivi thérapeutique et dans le domaine des neurosciences, afin d’aider à la compréhension des mécanismes cérébraux, tels par exemple que la maturation, le vieillissement et la conscience. L'imagerie biologique est un axe de recherche récent de notre équipe. Les travaux ont pour objet l'étude de la conformation de protéines, à partir de données issues de microscopie électronique et correspondant à des projections bidimensionnelles de ces protéines. Un autre volet de l'imagerie biologique est le suivi de d'évolutions et de l'organisation de structures biologiques (cellules, groupes de cellules, etc.) '''Principaux axes de recherche :''' * déformation et recalage d'images * segmentation d'images * reconstruction de données * création et utilisation d'atlas * détection de changements et suivi longitudinal * étude de la connectivité et des réseaux cérébraux * étude de la conformation 3D et 3D+t de protéines * analyse de structures biologiques par imagerie '''Mots-clefs :''' mise en correspondance, segmentation, reconstruction, détection de changements, suivi longitudinal, création et utilisation d’atlas, extraction et analyse d’informations anatomiques et fonctionnelles normales ou pathologiques, conformation de protéines, structures biologiques. 4ee1bd088d9b801ba02e50d762ed3799e78b307b 281 280 2013-05-14T08:01:46Z Heinrich 29 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Les travaux réalisés dans le cadre de ce thème de recherche ont pour objectif le développement de modèles, de méthodes, d'algorithmes et de codes informatiques pour le traitement de données issues d'imageurs biologiques et médicaux. Ces travaux donnent lieu à d'étroites collaborations entre traiteurs d’images, médecins, chercheurs en neurosciences et biologistes. Les images considérées sont généralement massives, complexes et hétérogènes (données vectorielles, multisources, multimodales, multispectrales, séquences temporelles). En traitement d'images médicales, le centre d’intérêt principal, mais non exclusif, est l’imagerie cérébrale. Des algorithmes de mise en correspondance, de segmentation, de détection de changements, de suivi longitudinal, de création et d’utilisation d’atlas statistiques sont développés. La mise en œuvre des chaînes de traitement intervient dans le domaine clinique à des fins de diagnostic et de suivi thérapeutique et dans le domaine des neurosciences, afin d’aider à la compréhension des mécanismes cérébraux, tels par exemple que la maturation, le vieillissement et la conscience. L'imagerie biologique est un axe de recherche récent de notre équipe. Les travaux ont pour objet l'étude de la conformation de protéines, à partir de données issues de microscopie électronique et correspondant à des projections bidimensionnelles de ces protéines. Un autre volet de l'imagerie biologique est le suivi de d'évolutions et de l'organisation de structures biologiques (cellules, groupes de cellules, etc.) '''Principaux axes de recherche :''' * déformation et recalage d'images * segmentation d'images * reconstruction de données * création et utilisation d'atlas * détection de changements et suivi longitudinal * étude de la connectivité et des réseaux cérébraux * étude de la conformation 3D et 3D+t de protéines * analyse de structures biologiques par imagerie '''Mots-clefs :''' mise en correspondance, segmentation, reconstruction, détection de changements, suivi longitudinal, création et utilisation d’atlas, extraction et analyse d’informations anatomiques et fonctionnelles normales ou pathologiques, conformation de protéines, structures biologiques. b81314926a6c43bce6b1ced0ae18e3e14d4aa40c 282 281 2013-05-14T08:49:11Z Heinrich 29 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes :''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Keywords :''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. c2cd11ec4632c2bf0e023cb423699a00e1ba3410 283 282 2013-05-14T08:58:26Z Heinrich 29 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ERC FBrain, ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. e31afce8339f6c033c8b383890e36256c62ea65d 284 283 2013-05-14T13:09:59Z Admin 1 Admin moved page [[Medical image processing]] to [[Biomedical image processing]] wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' Ch. Heinrich ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ERC FBrain, ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. e31afce8339f6c033c8b383890e36256c62ea65d 0 57 285 2013-05-14T13:09:59Z Admin 1 Admin moved page [[Medical image processing]] to [[Biomedical image processing]] wikitext text/x-wiki #REDIRECT [[Biomedical image processing]] cf7f171de6ce716f4fcc809cdc61da65001b9518 8 2 286 44 2013-05-14T13:10:31Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ERC FBrain|ERC FBrain ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 0d3e96e3383bcf1c030a907d619e8ac7aad131ad 0 3 287 251 2013-05-14T13:47:26Z Heinrich 29 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|800px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 1c7b010d5cb53d25178fb4ca577e5656ffb1030d 0 19 288 54 2013-06-04T14:44:49Z Rousseau 10 wikitext text/x-wiki Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[Francois Rousseau]] (porteur du projet) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] 93d3432e5b4ddf23bd0124d8d94b69c45d23abd7 289 288 2013-06-05T09:28:33Z Rousseau 10 wikitext text/x-wiki Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[François Rousseau]] (porteur du projet) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] 524a06c15d86ce6b5537055d0fceed7bd7cd4fd2 291 289 2013-06-17T18:12:44Z Rousseau 10 wikitext text/x-wiki Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[François Rousseau]] (PI) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] 2410b4c64a3e6cf819d9940b458d44a29b9d487a 294 291 2013-06-17T18:41:02Z Rousseau 10 wikitext text/x-wiki Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[François Rousseau]] (PI) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] [[File:erc_pipeline_UK.png|center|upright=7]] d3bc3d5973dbdd6d81e27ac58b07692db5fb3cf6 0 58 290 2013-06-11T12:03:09Z Noblet 4 Created page with "<anyweb> http://icube-vivabrain.unistra.fr/index.php/Main_Page </anyweb>" wikitext text/x-wiki <anyweb> http://icube-vivabrain.unistra.fr/index.php/Main_Page </anyweb> 621238ba404ae6e6c7f25ff4bc20d369cdb2e2bd 6 59 293 2013-06-17T18:40:27Z Rousseau 10 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 295 293 2013-06-17T18:42:15Z Rousseau 10 Rousseau uploaded a new version of &quot;[[File:Erc pipeline UK.png]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 296 295 2013-06-17T18:43:15Z Rousseau 10 Rousseau uploaded a new version of &quot;[[File:Erc pipeline UK.png]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 60 297 2013-06-18T07:43:31Z Champ 26 Created page with "<big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch ..." wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> d478d4ab7d86de2c12d09fd806441893eac7dba4 298 297 2013-06-18T07:43:48Z Champ 26 /* With */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> f5efe0b237ed6cd1d0c725d2d3a900ae9ef6f3b9 299 298 2013-06-18T07:45:10Z Champ 26 /* Motion Correction and reconstruction improvement for diffusion fetal MRI */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ====Motion Correction and reconstruction improvement for diffusion fetal MRI [http://rousseau.github.com/fbrain/ btk] ==== ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 3c06aa291b64ec08cb5b5695c563e406b7e9dae2 300 299 2013-06-18T07:45:55Z Champ 26 /* BTK Toolkit btk */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ====Motion Correction and reconstruction improvement for diffusion fetal MRI [http://rousseau.github.com/fbrain/ btk] ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> b79329930999666e842715c59920d4340fc5029f 301 300 2013-06-18T07:49:07Z Champ 26 /* Project ERC FBrain */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ==== Introducing [http://rousseau.github.com/fbrain/ BTK] : Baby Brain ToolKit ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 7aa5ba80156dcb7b2055a13247f8b4f678f21117 302 301 2013-06-18T07:49:23Z Champ 26 /* Activity */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ==== Introducing [http://rousseau.github.com/fbrain/ BTK] : Baby Brain ToolKit ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 7ab5bfcefcd33a954658cc6d417f05d57509fe5d 0 60 303 302 2013-06-18T07:50:07Z Champ 26 wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> <br /> Tel : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ==== Introducing [http://rousseau.github.com/fbrain/ BTK] : Baby Brain ToolKit ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 8ca285a8547bca86def04b65c352e00f6c7588b7 311 303 2013-06-18T09:18:54Z Champ 26 /* Motion Correction and reconstruction improvement for diffusion fetal MRI */ wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> <br /> Tel : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> e-mail : '''champ@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ==== Introducing [http://rousseau.github.com/fbrain/ BTK] : Baby Brain ToolKit ==== * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] ====Motion Correction and reconstruction improvement for diffusion fetal MRI ==== [[File:outliersCorrection.jpg |600px | center | thumb | <b>Left</b> : original images <br /><b>Right</b> : corrected images ]] ==== With ==== * [[Francois Rousseau]] * [[Larbi Boubchir]] * [[Aicha bentaieb]] * [[Julien Pontabry]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 59f0184c648c3e85b3144b4272b8952fb33c3705 6 61 304 2013-06-18T08:12:34Z Abentaieb 24 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 62 305 2013-06-18T08:14:41Z Abentaieb 24 Created page with "<big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch ..." wikitext text/x-wiki <big>''' CNRS Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> e-mail : '''abentaieb@unistra.fr'''<br /> |} </td> </table> == Activity == === Project [[ERC FBrain]] === ==== BTK Toolkit [http://rousseau.github.com/fbrain/ btk] ==== * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for image processing, reconstruction, denoising, segmentation, tractography on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * It is hosted on [https://github.com/rousseau/fbrain/ GitHub] ==== Characterization and sequencing of fetal brain development ==== * Using different methods such as registration, triangularization, surface mapping, discrete curvature and probabilistic approaches our goal is to provide a temporal descritption of the "events" or changes (e.g cortex folding) appearing during fetal brain development. [[File:image.png|thumbnail|Curvature on a triangular mesh of fetal brain cortex surface]] ==== Team ==== * [[Larbi Boubchir]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Francois Rousseau]] * [[Marc Schweitzer]] ''' Key-words : ''' <big>Btk, ITK, VTK, CMake, Git, GitHub, C++, Python, Slicer, Itksnap </big> 2497dbe57a9f066c2d582e563a861ac4e293ae45 0 22 306 62 2013-06-18T09:06:03Z Pontabry 7 /* Tractography with diffusion weighted MRI: application to fetal brain */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> dafee1ce07651118a27e8b8f3a91f35ee90a5aa6 307 306 2013-06-18T09:07:16Z Pontabry 7 /* Probabilistic atlas building of the fetal brain */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 13f2b60bdba3dfabeb30527122be257313e6f204 308 307 2013-06-18T09:08:06Z Pontabry 7 /* Research activities */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 31972bb65d28d269f5d2a9d15ad29ecd472e8757 309 308 2013-06-18T09:09:11Z Pontabry 7 /* Probabilistic atlas building of the fetal brain */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [ERC FBrain|ERC Starting Grants] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> de4638e1e761b60c6b7b45ef27ecc910f32eb280 310 309 2013-06-18T09:09:51Z Pontabry 7 /* Probabilistic atlas building of the fetal brain */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Probabilistic atlas building of the fetal brain === <br /> [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 984db5543821a493e4e92dcf86456d8de43b08be 312 310 2013-06-18T12:04:33Z Pontabry 7 /* Research activities */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Feature selection for fetal brain maturation studies === <br /> [[File:feature-selection.gif|400px|thumb|center|''Dimension reduction by feature selection on deformation fields. Selected parameters are depicted by size and color varying points, depending on their importance. Click on the thumb to see the animation.'']] <br /> '''Description''' Le brain maturation, i.e. the way the brain structures itself during its evolution in the fetal state, is one of the major contemporary enigma. The actual knowledge is derived from post mortem studies. This difficulty is now overcomed by advanced imaging technics in vivo ; especially MRI. With some fetal images (health controlled), assumed to be a representative part of the human population, population study methods allow to highlight evolution patterns of the in utero human brain. Nevertheless, the large number of parameters is still a limitation. A standard way to study such high-dimensional space is to reduce the dimension. There are two families of methods. The first family is the feature extraction, which aim to find a compact space suited for data representation. However, physical meaning of the new space is unclear. The second family is the feature selection. The new space is subset of the original space. Then, the physical meaning is kept and make easier to understand the maturation process. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] * [[ Frédéric Champ|F. Champ ]] * [[ Aicha bentaieb|A. Bentaieb ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2013/5-PR13a Sélection de caractéristiques pour l'étude de la maturation cérébrale] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Probabilistic atlas building of the fetal brain === <br /> [[File:jacobian_gm.png|400px|thumb|left|''Morphometrical analysis of the brain maturation using the jacobian projected on the grey matter surface.'']][[File:jacobian_wm.png|400px|thumb|right|''Morphometrical analysis of the brain maturation using the jacobian projected on the interface between grey and whie matter.'']] [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 396b2f0cd7419de19abdb34c777d3ff920bfdd68 313 312 2013-06-26T12:16:47Z Pontabry 7 /* Feature selection for fetal brain maturation studies */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Feature selection for fetal brain maturation studies === <br /> [[File:temporal-lobe.png|600px|thumb|center|''Selection of the area of huge variability on the temporal lobe (depicted by the geen color). The selected points are focused on the sulci and allow to locate the patterns of the fetal brain maturation (here, the gyration process is characterized).'']] <br /> '''Description''' Le brain maturation, i.e. the way the brain structures itself during its evolution in the fetal state, is one of the major contemporary enigma. The actual knowledge is derived from post mortem studies. This difficulty is now overcomed by advanced imaging technics in vivo ; especially MRI. With some fetal images (health controlled), assumed to be a representative part of the human population, population study methods allow to highlight evolution patterns of the in utero human brain. Nevertheless, the large number of parameters is still a limitation. A standard way to study such high-dimensional space is to reduce the dimension. There are two families of methods. The first family is the feature extraction, which aim to find a compact space suited for data representation. However, physical meaning of the new space is unclear. The second family is the feature selection. The new space is subset of the original space. Then, the physical meaning is kept and make easier to understand the maturation process. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] * [[ Frédéric Champ|F. Champ ]] * [[ Aicha bentaieb|A. Bentaieb ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2013/5-PR13a Sélection de caractéristiques pour l'étude de la maturation cérébrale] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Probabilistic atlas building of the fetal brain === <br /> [[File:jacobian_gm.png|400px|thumb|left|''Morphometrical analysis of the brain maturation using the jacobian projected on the grey matter surface.'']][[File:jacobian_wm.png|400px|thumb|right|''Morphometrical analysis of the brain maturation using the jacobian projected on the interface between grey and whie matter.'']] [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tracto_anim.gif|216px|thumb|left|''Full tractography of a fetal brain (displayed on a volumic rendering).'']][[File:fetal_full-tracto_clustering.png|200px|thumb|right|''Fiber clustering.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> cb245dec7f7c14cdcbe59082d435a276438f80c0 314 313 2013-06-26T12:19:08Z Pontabry 7 /* Tractography with diffusion weighted MRI: application to fetal brain */ wikitext text/x-wiki <big>'''Phd candidate'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone : +33 (0) 3 68 85 44 84<br /> Office : '''C223''' <br /> Mail : '''julien(dot)pontabry(at)icube(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == === Feature selection for fetal brain maturation studies === <br /> [[File:temporal-lobe.png|600px|thumb|center|''Selection of the area of huge variability on the temporal lobe (depicted by the geen color). The selected points are focused on the sulci and allow to locate the patterns of the fetal brain maturation (here, the gyration process is characterized).'']] <br /> '''Description''' Le brain maturation, i.e. the way the brain structures itself during its evolution in the fetal state, is one of the major contemporary enigma. The actual knowledge is derived from post mortem studies. This difficulty is now overcomed by advanced imaging technics in vivo ; especially MRI. With some fetal images (health controlled), assumed to be a representative part of the human population, population study methods allow to highlight evolution patterns of the in utero human brain. Nevertheless, the large number of parameters is still a limitation. A standard way to study such high-dimensional space is to reduce the dimension. There are two families of methods. The first family is the feature extraction, which aim to find a compact space suited for data representation. However, physical meaning of the new space is unclear. The second family is the feature selection. The new space is subset of the original space. Then, the physical meaning is kept and make easier to understand the maturation process. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] * [[ Frédéric Champ|F. Champ ]] * [[ Aicha bentaieb|A. Bentaieb ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2013/5-PR13a Sélection de caractéristiques pour l'étude de la maturation cérébrale] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Probabilistic atlas building of the fetal brain === <br /> [[File:jacobian_gm.png|400px|thumb|left|''Morphometrical analysis of the brain maturation using the jacobian projected on the grey matter surface.'']][[File:jacobian_wm.png|400px|thumb|right|''Morphometrical analysis of the brain maturation using the jacobian projected on the interface between grey and whie matter.'']] [[File:Template_tissues.png|600px|thumb|center|''3D model of brain tissues computed from a fetal brain population.'']] [[File:atlas.png|600px|thumb|center|''Coronal slices of the longitudinal model computed from a fetal brain population. Ages are plotted on the temporal axes (weeks). First row: probability map of the gray matter ; Second row: anatomical image.'']] <br /> '''Description''' The human brain maturation, i.e. how the brain is structured during the fetal state, is a great modern enigma. Current knowledge is often based on post-mortem studies. However, technical advances of in-vivo acquisition systems, such as MRI, allow the studies to go beyond. Based on several clinical fetal brain images (controlled cases), supposed to be representative of the global human population, population studies are used to highlight evolution patterns of the in-utero human brain. Atlas building is a fondamental tool for such population studies. An atlas is an average structure, which represents a population and contains the shared properties and evolution patterns of the considered population. The proposed method uses non-parametric data-driven approaches, without any prior. So, no hypothesis is made about the shape of the evolution modeling. The results are evaluation using quantitative and novel methodology to ensure the consistency of the atlas within the data. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Marc Schweitzer|M. Schweitzer ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2012/5-PRSS12 Longitudinal Probabilistic Atlas of the Fetal Brain] * [http://icube-intranet.unistra.fr/papr/2013/5-PR13 Construction d'atlas en IRM de diffusion] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) <br /> <hr /> <br /> === Tractography with diffusion weighted MRI: application to fetal brain === <br /> [[File:tractographie_foetus-complet-image.png|400px|thumb|center|''Full tractography of a fetal brain. The reconstructed fibers are colored by their global orientation.'']] [[File:fibers.png|500px|thumb|center|''Coronal and sagital views of white matter tractography of a fetal brain (corpus callosum, pyramidal fasciculus).'']] [[File:map-cc.png|700px|thumb|center|''Axial and coronal views of the corpus callosum connectivity map (left ang middle) and sagital view of the pyramidal fasciculus connectivity map (right) of a fetal brain.'']] <br /> '''Description''' The brain is principaly composed by gray and white matters. The white matter is mainly formed by a fibrous tissue naturally caused by the axonal part of neurons. The water in the human brain is constrained by the tangles of tissues and diffuses along them, revelating their trajectories. Thus, the images formed are indirect observations of the trajectories of fiber bundles connecting one part of the brain to another. Tractography is to determine fiber paths using diffusion weighted MRI images. For clinic usage, tractography of a diffusion weigthed MRI image of a patient aims to verifiy connections between differents parts of the human brain or to prepare a surgery. For research uses, the purposes of this technique is to learn more about brain network or to study the brain maturation (e.g. the fetal brain evolution). The goal of tractography is to delineate trajectories along constrainted water diffusion in the brain, using noised data (the noise is due to system, environnement, etc.). The proposed solution uses trajectory tracking methods on videos (particular filter). This techniques allows an efficient solution space exploration while being robust to noise. Raw observations are modeled by spherical harmonics which allows to get a probability density function of diffusion for each point in the image. '''Funding''' This research are a part of a European project [[ERC FBrain|ERC Starting Grants]] on brain maturation. '''With''' * [[ François Rousseau|F. Rousseau ]] * [[ Estanislao Oubel|E. Oubel ]] '''Publications''' * [http://icube-intranet.unistra.fr/papr/2011/4-PR11 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering, MICCAI 2011] * [http://icube-intranet.unistra.fr/papr/2013/2-PROS13 Probabilistic Tractography Using Q-Ball Modeling and Particle Filtering: Application to Adult and in-utero Fetal Brain Studies] '''Associated publications''' * [http://icube-intranet.unistra.fr/papr/2011/5-ROPK11 Reconstruction Methods for in-utero Fetal Brain MRI, RITS 2011] * [http://icube-intranet.unistra.fr/papr/2011/7-ROPS11 An Open-Source Toolkit for Fetal Brain MR Image Processing, MICCAI 2011 Workshop] * [http://icube-intranet.unistra.fr/papr/2013/2-ROPS13 BTK : An Open-Source Toolkit for Fetal Brain MR Image Processing] '''Software''' [http://rousseau.github.com/fbrain/ BTK] ([http://github.com/rousseau/fbrain sources], [http://github.com/rousseau/fbrain/blob/master/Documentation/Latex/btk.pdf documentation]) == Teaching activities (French only) == === Année 2011-2012 === <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Harmonisation (maths)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les étudiant venant de tous horizons, il est souvent important d'harmoniser leur niveau en mathématiques. Ce module vise à leur fournir les bases essentielles de mathématiques nécessaires pour l'apprentissage de l'informatique. <br /> === Année 2010-2011 === <br /> '''Outils de gestion et de modélisation informatique (OMGI)''' ''DUT Services et Réseaux de Communication 1ère année, IUT de Haguenau'' '''Description''' Les outils informatique de gestion et de modélisation de données (tableur, présentation) sont prépondérant pour la présentation efficace de données à un public. Ce module de bureautique vise à apprendre aux étudiants l'utilisation de tels outils. Le tableur OpenOffice Calc et de l'outil de présentation OpenOffice Impress sont étudiés tout au long des TP composant ce module. <br /> '''Programmation : JavaScript (PROG4)''' ''DUT Services et Réseaux de Communication 2ème année, IUT de Haguenau'' '''Description''' De nos jours, l'interface d'un site web se doit d'être dynamique. Le seul langage HTML ne suffit pas dans cette tâche. En plus d'être un langage orienté objet, le JavaScript permet de rendre un site web codé en HTML plus dynamique. Ce module vise à apprendre aux étudiants la manipulation d'un langage de programmation orienté objet et à appliquer ces connaissances à la conception de sites web dynamiques grâce au JavaScript. == Publications == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=pontabry&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f1e0d6715bf1e7cb099a76a4042133d33fb16774 6 63 315 2013-07-25T15:18:05Z Baudrier 14 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 55 316 276 2013-07-25T15:22:07Z Baudrier 14 /* Research Activity */ wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. Download here [[:File:DB_50_gray_images_5_resol.zip|here]]. === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 9d1d9d47ca29dff297d45c463c1c3eb9e94bb8a4 317 316 2013-07-25T15:23:21Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here] [[:File:DB_50_gray_images_5_resol.zip|here]]. === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 9020fa5924b6699a25ce0d050f9881a1e47b59ae 318 317 2013-07-25T15:24:21Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here]. === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] a62d6fee3b800708d75e1b20d3f41a1a6fa2a538 319 318 2013-07-25T15:25:07Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big><br /> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. <br /> Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here]. === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] fad3ba29c6c203618c5496838d4aaaca72fe430d 320 319 2013-07-25T15:26:50Z Baudrier 14 wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big><br /> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. <br /> Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here]. Exemaple of an image from the database === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] 060497188ba95f828c73215ea7c96cfdb40a3346 0 23 321 246 2013-08-20T12:26:38Z Boubchir 9 /* Teaching Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. c783f1eafea2a9bb95f4177eec0ae4928b8332d3 322 321 2013-08-20T12:53:52Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} {| |- | '''[[ERC FBrain]] Project''' |- |} {| |- | '''[http://rousseau.github.com/fbrain/ BTK] Toolkit''' * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for image processing, reconstruction, denoising, segmentation, tractography on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * It is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- |} {| |- | '''Team''' * [[Larbi Boubchir]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 21553e3c9c8c40fd8002fc5374deec7a05a33a6b 323 322 2013-08-20T12:59:32Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''[[ERC FBrain]] Project''' |- |} {| |- | '''[http://rousseau.github.com/fbrain/ BTK] Toolkit''' * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for image processing, reconstruction, denoising, segmentation, tractography on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * It is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- |} {| |- | '''Team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. ba50306f5fbbbce056f6a331b6461c3e37ddbc05 324 323 2013-08-20T13:00:12Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''[[ERC FBrain]] Project''' |- |} {| |- | '''[http://rousseau.github.com/fbrain/ BTK] Toolkit''' * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for image processing, reconstruction, denoising, segmentation, tractography on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * It is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- |} {| |- | '''Team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. ce90fb18932edb0e47c6cc9e032ade0f61713e39 325 324 2013-08-20T13:01:43Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''[[ERC FBrain]] Project''' |- |} {| |- | '''[http://rousseau.github.com/fbrain/ BTK] Toolkit''' * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for medical image processing, reconstruction, denoising, segmentation, tractography and clustering on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks. * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence. * It is hosted on [https://github.com/rousseau/fbrain/ GitHub]. |- |} {| |- | '''Team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 3b77d4ae1c8a02435133e28d889d1ecfbaa7faad 326 325 2013-08-20T13:03:06Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''[[ERC FBrain]] Project''' |- |} {| |- | '''[http://rousseau.github.com/fbrain/ BTK] Toolkit''' * Btk is a toolkit developped for the [[ERC FBrain]]. * The aim of this project is to provide different tools for medical image processing, reconstruction, denoising, segmentation, tractography and clustering on fetal brain images. * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks. * Btk is an open-source toolkit: [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence. * It is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- |} {| |- | '''Team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 6af7368cbdb7bb3ea86a5e9a326aae9f19d65bad 327 326 2013-08-20T13:09:13Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. || [[File:FiberClustering example.png|200px|thumbnail|right]] |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 66270566adda989c708e0d310d8bb24fe5a6fcef 330 327 2013-08-30T13:22:31Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. |- |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''Software: Baby Brain Toolkit [http://rousseau.github.com/fbrain/ BTK]''' * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- | ''' Key-words : ''' BTK, ITK, VTK, CMake, Git, GitHub, C++, Python, 3D-Slicer, ITK-SNAP |} {| |- | '''[[ERC FBrain]] project team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. e26c8864310876b07df7c12030803929924f1bac 334 330 2013-08-30T13:27:28Z Boubchir 9 /* Research Activities */ wikitext text/x-wiki <big>'''CNRS Postdoctoral Researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Bureau : '''C223''' <br /> Courriel : ''larbi.boubchir@icube.unistra.fr''<br /> |} </td> </table> == Research Activities == {| |- | '''White-matter fibers clustering of the humain brain''' <br /> My current research is centered on white-matter fibers clustering of the fetal brain, and falls within the [[ERC FBrain]] project where the main objective is to study the fetal brain maturation and to provide essential tools for neurosurgerians and neurophysicians. |- |} {| |- | [[File:Corpus Callosum.png|200px|vignette|Corpus callosum region]] || [[File:CC-tractography.png|200px|vignette|Fiber tracts]] || [[File:CC-clustering.png|200px|vignette|Clustering fiber tracts]] |} {| |- | ''' Key-words : ''' Fiber Clustering, Fiber Tractography, dMRI (Diffusion Magnetic Resonance Imaging), DTI (Diffusion tensor imaging), Foetal Brain. |- |} {| |- | '''Software: Baby Brain Toolkit [http://rousseau.github.com/fbrain/ BTK]''' * Btk it a toolkit developped for the [[ERC FBrain]], it contain tools for image processing, reconstruction, denoising, segmentation, tractography... * Btk is coded with the C++ language and use [http://www.itk.org/ ITK] and [http://www.vtk.org/ VTK] frameworks * Btk is open-source with and under the [http://www.cecill.info/licences/Licence_CeCILL-B_V1-fr.html/ CeCill-B] licence * Btk is hosted on [https://github.com/rousseau/fbrain/ GitHub] |- | ''' Key-words : ''' BTK, ITK, VTK, CMake, Git, GitHub, C++, Python, 3D-Slicer, ITK-SNAP |} {| |- | '''[[ERC FBrain]] project team''' * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Francois Rousseau]] |- |} == Teaching Activities == * [http://www.unistra.fr/index.php?id=accueil University of Strasbourg] (2012-2013) : Department: [http://mathinfo.unistra.fr/ UFR Mathematics & Computer Science] : Course: [http://mathinfo.unistra.fr/offre-de-formation/ue/?spec=17&sem=38&ue=420 Databases] (Licence 3 Informatique-TD) * [http://iutrs.unistra.fr/ IUT Robert Schuman - Illkirch] (2012-2013) : Department: [http://iutrs.unistra.fr/iut-illkirch/dut-informatique.html Computer Science] : Computer Science DUT-1st year: [http://iutrs.unistra.fr/iut-illkirch/dutinfo-modules-sem2.html#p22 P22-The use of software components (Java and Swing Components Library)] (TD-TP) == Publications == === Journal articles === * '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org.scd-rproxy.u-strasbg.fr/xpl/articleDetails.jsp?tp=&arnumber=6457476&contentType=Journals+%26+Magazines&ranges%3D2013_2013_p_Publication_Year%26searchField%3DSearch_All%26queryText%3Dboubchir Wavelet denoising based on the MAP estimation using the BKF prior with application to images and EEG signals]", IEEE Transactions on Signal Processing, Vol. 61, No. 8, pp. 1880-1894, 2013 [DOI 10.1109/TSP.2013.2245657]. * B. Boashash, '''L. Boubchir''', and G. Azemi, "[http://asp.eurasipjournals.com/content/2012/1/117 A methodology for time-frequency image processing applied to the classification of non-stationary multichannel signals using instantaneous frequency descriptors with application to newborn EEG signals]", EURASIP Journal on Advances in Signal Processing (Special Issue: Advances in Time Frequency and Array Processing of Non-stationary Signals), 2012:117, doi:10.1186/1687-6180-2012-117, published: 29 May 2012. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S0167865507001298 Reply to comments of A. Achim, E. Kuruoglu, A. Bezerianos and P. Tsakalides on 'A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable prior]", Pattern Recognition Letters (Elsevier), Vol. 28, No. 13, pp. 1848-1851, 2007. * L. Lancieri and '''L. Boubchir''', "[http://www.sciencedirect.com/science/article/pii/S0950705106001420 Using Multiple Uncertain Examples and Adaptative Fuzzy Reasoning to Optimize Image Characterization]", Knowledge-Based Systems (Elsevier), Vol. 20, No. 3, pp. 266-276, 2007. * '''L. Boubchir''' and J. Fadili, "[http://www.sciencedirect.com/science/article/pii/S016786550600016X A closed-form nonparametric Bayesian estimator in the wavelet-domain of images using an approximate alpha-stable Prior]", Pattern Recognition Letters (Elsevier), Vol. 27(12), pp. 1370-1382, 2006. * J. Fadili and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1381491&contentType=Journals+%26+Magazines&queryText%3DAnalytical+form+for+a+Bayesian+wavelet+estimator+of+images+using+the+Bessel+K+Form+densities Analytical form for a Bayesian wavelet estimator of images using the Bessel K Form densities]", IEEE Transactions on Image Processing, Vol. 14, No. 2, pp. 231-240, 2005. === Conference and workshop articles === * B. Boashash and '''L. Boubchir''', "[http://link.springer.com/chapter/10.1007%2F978-3-642-34478-7_77?LI=true# On the selection of time-frequency features for improving the detection and classification of newborn EEG seizure signals and other abnormalities]", Neural Information Processing: ICONIP'2012, Part IV, Lecture Notes in Computer Science Volume 7666, pp. 634-643, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6310698&contentType=Conference+Publications A novel multimodal compression scheme based on a spiral insertion function in the wavelet domain]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 137-142, July 3-5, Montreal, Canada, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310560&contentType=Conference+Publications&queryText%3DImproving+the+classification+of+newborn+EEG+time-frequency+representations+using+a+combined+time-frequency+signal+and+image+approach Improving the classification of newborn EEG time-frequency representations using a combined time-frequency signal and image approach]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 316-321, July 3-5, Montreal, Canada, 2012. * Y. Bahnasy, N. Saad, '''L. Boubchir''' and B. Boashash, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6310531&contentType=Conference+Publications&queryText%3DCalibration+of+time+features+and+frequency+features+in+the+time-frequency+domain+for+improved+detection+and+classification+of+seizures+in+newborn+EEG+signal Calibration of time features and frequency features in the time-frequency domain for improved detection and classification of seizures in newborn EEG signal]", The 11th International Conference on Information Sciences, Signal Processing and their Applications (ISSPA'2012), pp. 1483-1484, July 3-5, Montreal, Canada, 2012. * A. Boudjelal, Z. Messali, '''L. Boubchir''' and N. Chetih, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6481962&contentType=Conference+Publications&queryText%3DNonparametric+Bayesian+estimation+structures+in+the+wavelet+domain+of+multiple+noisy+image+copies Nonparametric Bayesian estimation structures in the wavelet domain of multiple noisy image copies]", In proc. of the 6th International Conference on Sciences of Electronic, Technologies of Information and Telecommunications (SETIT'2012), pp. 495-501, Mar. 21-24, Souce, Tunisia, 2012. * B. Boashash, '''L. Boubchir''' and G. Azemi, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=6151545&contentType=Conference+Publications&queryText%3DTime-frequency+signal+and+image+processing+of+non-stationary+signals+with+application+to+the+classification+of+newborn+EEG+abnormalities Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities]", The 11th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT'2011), pp. 120-129, Dec. 14-17, Bilbao, Spain, 2011. * '''L. Boubchir''', B. Durning and E. Petit, "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=731201 EM algorithm-based hyperparameters estimator for Bayesian image denoising using BKF prior]", SPIE Electronic Imaging-Image Processing: Algorithms and Systems IX, Vol. 7870, pp. 78700W-10, Jan. 23-27, San Francisco, USA, 2011. * '''L. Boubchir''', A. Nait-Ali and E. Petit, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5652329&contentType=Conference+Publications&queryText%3Dboubchir Multivariate statistical modeling of images in Sparse representation transforms domain using BKF prior]", The IEEE International Conference on Image Processing (ICIP'2010), pp. 1877-1880, Sept. 26-29, Hong Kong, 2010. * S. Amira-Biad, T. Bouden and '''L. Boubchir''', "[http://www.wikicfp.com/cfp/servlet/event.showcfp?eventid=5747&copyownerid=2 Study of a quantisation index modulation based informed watermarking scheme]", In Proceedings of the 5th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS'2009), Nov. 29-Dec. 4, Marrakech, Morocco, 2009. * '''L. Boubchir''', "[http://ispa2009.univ-mosta.dz/ Modeling inter- and intra-scale image in oriented and non-oriented sparse representation transforms]", In Proceedings of the International Conference on Image and Signal Processing and their Applications (ISPA'2009), Oct. 19-21, Mostaganem, Algeria, 2009. * '''L. Boubchir''', A. Otmani and N. Zerida, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4604101&contentType=Conference+Publications&queryText%3DThe+2nd+BOWS+contest%3A+wavelet-based+Bayesian+denoising+attack+on+image+watermarking The 2nd BOWS contest: wavelet-based Bayesian denoising attack on image watermarking]", International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIHMSP'2008), pp. 473-479, Aug. 15-17, Harbin, China, 2008. * J. Fadili, J.–L. Starck and '''L. Boubchir''', "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=4217148&contentType=Conference+Publications&queryText%3DMorphological+diversity+and+sparse+image+denoising Morphological diversity and sparse image denoising]", The IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP'2007), Vol. I, pp. 589-592, Apr. 15-20, Honolulu, USA, 2007. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1529700&contentType=Conference+Publications&queryText%3DBayesian+denoising+based+on+the+MAP+estimation+in+wavelet-domain+using+Bessel+K+Form+prior Bayesian denoising based on the MAP estimation in wavelet-domain using Bessel K Form prior]", The IEEE International Conference on Image Processing (IEEE ICIP'2005), Vol. I, pp. 113-116, Sept. 11-14, Genoa, Italy, 2005. * '''L. Boubchir''' and J. Fadili, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1581046&contentType=Conference+Publications&queryText%3DMultivariate+statistical+modeling+of+images+with+the+curvelet+transform Multivariate statistical modeling of images with the curvelet transform]", The 8th International Conference on Signal Processing and Its Applications (ISSPA'2005), pp. 747-750, Aug. 28-31, Sydney, Australia, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "[http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=1333915&contentType=Conference+Publications&queryText%3DBayesian+denoising+in+the+wavelet-domain+using+an+analytical+approximate+alpha-stable+prior Bayesian denoising in the wavelet-domain using an analytical approximate alpha-stable prior]", The 17th International Conference On Pattern Recognition (ICPR’2004), Vol. 4, pp. 889-892, Aug. 23-26, Cambridge, UK, 2004. === French conference and workshop articles === * '''L. Boubchir''', "[http://documents.irevues.inist.fr/handle/2042/29064 Modélisation statistique multivariée des images dans le domaine des transformées multi-échelles orientées et non-orientées]", 22th GRETSI Symposium on Signal and Image Processing, Sept. 8-11, Dijon, France, 2009. * '''L. Boubchir''', "[http://liris.cnrs.fr/~jetim06/ Algorithme EM pour l'estimation des hyperparamètres du débruiteur bayésien d'images basé sur l'a priori des Formes K de Bessel]", Journées d’Etudes Algéro-Françaises en Imagerie Médicale (in Proc. of JETIM’2006), Nov. 21-22, Algiers, Algeria, 2006. * '''L. Boubchir''' and J. Fadili, "[http://documents.irevues.inist.fr/handle/2042/14022 Modélisation statistique multivariée des images dans le domaine de la transformée de Curvelet]", 20th GRETSI Symposium on Signal and Image Processing (GRETSI'2005), pp. 233-236, Septembre 6-9, Louvain-la-Neuve, Belgium, 2005. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des Ondelettes", Journées d'Etude sur les Méthodes pour les Signaux Complexes en Traitement d'Image (in Proc. of JEMOSICO'2003), pp. 105-118, Déc. 9-10, INRIA Rocquencourt, Paris, France, 2003. === Talks and Short Communications === * '''L. Boubchir''' and B. Boashash, "Selecting the maximum relevant translated EEG time-frequency features with a minimum redundancy using the mutual information measure for newborn seizure detection and classification", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''', T. Brahimi, R. Fournier and A. Nait-Ali, "A novel wavelet-based multimodal compression scheme for joint image-signal compression", Qatar Foundation Annual Research Forum, Doha, Qatar, Oct. 21-23, 2012. * '''L. Boubchir''' and B. Boashash, "Newborn EEG-based automatic abnormalities diagnosis scheme using a time-frequency & image processing approach", Qatar Foundation Annual Research Forum, Doha, Qatar, Nov. 20-22, 2011. * '''L. Boubchir''', "Bayesian approach for time-frequency image denoising with application to EEG signals", First Workshop on Time-Frequency Signal Analysis and Processing, Qatar University College of Engineering, June 14, 2011. * '''L. Boubchir''', A. Otmani and N. Zerida, "Attaque de tatouage d’image fondée sur une estimation bayésienne non-linéaire non-paramétrique dans le domaine des ondelettes", Journées Codage et Cryptographie, Mars 17-21, Carcans, France, 2008. * J. Fadili and '''L. Boubchir''', "Sparse representations and Bayesian denoising", SIAM Conference on Imaging Science (SIAM-IS’2006), May 15-18, Minneapolis, USA, 2006. * '''L. Boubchir''', J. Fadili and D. Bloyet, "Le processus alpha-stable pour l'estimation Bayésienne non paramétrique des images dans le domaine des ondelettes", Conf. IFR-47; Institut Fédératif de Recherche en Neuro-Imagerie Fonctionnelle, Cyceron, Sept. 13, Caen, France, 2003. === Thesis === * '''L. Boubchir''', "[http://tel.archives-ouvertes.fr/tel-00161573/ Approches statistiques pour le débruitage bayésien des images dans le domaine des transformées multi-échelles parcimonieuses orientées et non-orientées]", Ph.D. Thesis in Signal and Image Processing (in French), Université de Caen-Basse Normandie, France, Jui. 2007. 2a606604e635c959dee242b7ade10e710056a720 0 18 328 125 2013-08-30T13:07:32Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software : BTK (baby brain toolkit), developed with A. Bentaieb, L. Boubchir, B. Caldairou, F. Champ, E. Oubel, J. Pontabry, M. Schweitzer. ([http://rousseau.github.io/fbrain official github webpage], [https://github.com/rousseau/fbrain github repository], [http://www.nitrc.org/projects/btk nitrc webpage]). == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 3fd33ab9f2d33f2a7c71ee099a571eaec657f16f 329 328 2013-08-30T13:08:32Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software : BTK (baby brain toolkit), developed with A. Bentaieb, L. Boubchir, B. Caldairou, F. Champ, E. Oubel, J. Pontabry, M. Schweitzer. ([http://rousseau.github.io/fbrain github webpage], [https://github.com/rousseau/fbrain github repository], [http://www.nitrc.org/projects/btk nitrc webpage]). == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 6f65cee1a025b7d0c1c3c4a56c13187439e15f7e 336 329 2013-09-03T07:35:50Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software : BTK (baby brain toolkit), developed with A. Bentaieb, L. Boubchir, B. Caldairou, F. Champ, E. Oubel, J. Pontabry, M. Schweitzer. ([http://rousseau.github.io/fbrain github webpage], [https://github.com/rousseau/fbrain github repository], [http://www.nitrc.org/projects/btk nitrc webpage]). * Project : [http://icube-miv.unistra.fr/en/index.php/ERC_FBrain ERC FBRAIN] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 8edfdf14261cbaf48287e2b6befdec41f4dd88c0 6 64 331 2013-08-30T13:23:37Z Boubchir 9 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 65 332 2013-08-30T13:23:47Z Boubchir 9 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 66 333 2013-08-30T13:23:59Z Boubchir 9 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 32 335 128 2013-09-03T07:34:12Z Rousseau 10 wikitext text/x-wiki [[fr:Anciens_projets]] ===== ERC FBRAIN ===== Period : 2008-2013 PI : [[François Rousseau]] Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. [http://icube-miv.unistra.fr/en/index.php/ERC_FBrain ERC FBRAIN] <br /> ===== PEPS SpectroDec ===== Period : 2011-2012 PI : [[Vincent Mazet]] <br /> ===== ANR SpaceFusion ===== Period : 2006-2009 PI : [A. Jalobeanu] SpaceFusion (ANR Jeunes Chercheurs 2005) - closed SpaceFusion is a 3-year project funded by the French Research Agency (ANR). The goal is to perform multisource data fusion in astronomy and remote sensing. We use Bayesian inference to combine multiple images of the same area into a single, physically meaningful model (image in astronomy, digital surface model in Earth or planetary observation). Errors are propagated from the sources to the estimated model. Working themes: Super-resolution, registration, stereo, DEM and DTM reconstruction, change modeling, uncertainties. Group participants: A. Jalobeanu, C. Collet, M. Louys, F. Salzenstein. Direct collaborators: E. Slezak, A. Bijaoui (OCA). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet SpaceFusion du thème PASEO] ===== ACI MDA ===== Period : 2003-2006 Coordinator : [[Christophe Collet]] for Lab. LSIIT MDA (Data Masses in Astronomy) - closed This project is intended to set up collaborations between IT labs within a Virtual Observatory framework. Our group is mainly involved in this project through hyperspectral data reduction and fusion. Working themes: Multispectral image analysis, hyperspectral data reduction, data fusion. Participating research labs: CDS (Strasbourg), CERGA (Grasse), CESR (Toulouse), IAP (Paris), IRIT (Toulouse), LORIA (Nancy), LSIIT (Strasbourg), Observatoire de Paris. Group participants: all. Direct collaborators: F. Genova, F. Bonnarel, A. Schaaff, J-J. Claudon (CDS), A. Bijaoui, E. Slezak (OCA), S. Genaud, R. David (LSIIT). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php Projet MDA du thème PASEO] <br /> ===== ACI IDHA ===== Period : 2001-2004 Coordinator : [[Christophe Collet]] for Lab. LSIIT IDHA (Distributed Heterogeneous Images in Astronomy) - closed Within the context of Virtual Observatories, this project aimed at the development of tools to integrate query results into heterogeneous image distribution services. The group was involved through elaborating methods of multiresolution cross-identification from multispectral images. Working themes: Multiscale cross-identification in multispectral imaging. Participating research labs: CDS (Strasbourg), LSIIT (Strasbourg), QUB (Belfast), IAP (Paris), LAM (Marseille). Group participants: C. Collet, M. Louys. Direct collaborators: F. Murtagh (QUB), F. Genova, F. Bonnarel, A. Oberto (CDS). [http://lsiit-miv.u-strasbg.fr/paseo/collab.php IDHA project] b598c85c4926f9cec495e5f76376adf2874f75a0 0 4 337 292 2013-09-03T08:03:52Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | [[Larbi Boubchir|BOUBCHIR Larbi]] || Postdoctoral Researcher || C223 || +33 (0)3 68 85 44 84 || larbi(at)boubchir(dot)icube(at)unistra(at)fr |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[Frédéric Champ | CHAMP Frédéric]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || champ @ unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 3a04d6b0d4899f034171c49f68bce27c9a5e4257 338 337 2013-09-03T08:06:08Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[Frédéric Champ | CHAMP Frédéric]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || champ @ unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 91e266abb99f15f41ed712cba4ed7f20c5c165d8 339 338 2013-09-03T08:07:32Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * CALDAIROU Benoît * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] 9bbca3ec13d8ed77a929245f252de59f98c89609 340 339 2013-09-03T08:08:55Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Marc Schweitzer|SCHWEITZER Marc]] || Research Engineer || C223 || +33 (0)3 68 85 44 84 || marc.schweitzer @ unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] a7c0616a2929c0fc642aa783d6ba78d59d56d0c3 341 340 2013-09-03T08:15:29Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] * SFIKAS Giorgos * SHARMA Swati * ZOUAOUI Mahdi [[fr:Membres]] cd7d0ef71406bbeeba30f3124fe82dc60a6e74e3 342 341 2013-09-03T08:16:54Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * OUBEL Estanislao * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 3e63794159fb2adeca295d3be1c02cf01efe84a4 343 342 2013-09-03T08:22:56Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | PONTABRY Julien || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] a5de440a8a574289e4ede7dda25f5bdd6ec2b8de 8 2 344 286 2013-09-16T08:50:09Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ERC FBrain|ERC FBrain ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** Previous projects| Previous projects * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV ea1c3ddff9c9ce9a5e102c5a3705f31fb8a5840d 345 344 2013-09-16T12:43:39Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** Previous projects| Previous projects * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV e6c8028667ac78ceaf0f78fea6e12b8fade9fc3a 347 345 2013-10-10T14:44:45Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** Previous projects| Previous projects * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 12e026589cb8b12b645ac0971f58d0f8311c5fae 348 347 2013-10-10T14:45:08Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 72baa6b33b93e976894d8142c3b87ce2c8f25338 0 5 346 195 2013-10-07T09:35:51Z Mazet 3 wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://miv.u-strasbg.fr/mazet/mazet-en.htm'''<br /> |} </td> <td align=right> [[File:VincentMazet.png|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] f6cc9d2fbb2aa7234fbacb88df3d015cde38074d 0 67 349 2013-10-10T14:58:55Z Noblet 4 Created page with "Les applications de la vision par ordinateur nécessitent de plus en plus souvent une reconstruction 3D précise des objets à manipuler, à évaluer, etc. Ces applications de..." wikitext text/x-wiki Les applications de la vision par ordinateur nécessitent de plus en plus souvent une reconstruction 3D précise des objets à manipuler, à évaluer, etc. Ces applications de la vision par ordinateur sont appelées à prendre de plus en plus d’importance, avec de nombreux champs d'applications dans divers domaines industriels. La plateforme de métrologie du LSIIT met en œuvre de multiples techniques de reconstruction (stéréovision, lumière structurée, imagerie polarimétrique notamment), permettant de déterminer des modèles complexes (géométrie, texture, couleur,, etc.) par fusion des données acquises de nature différente. Par la mise à disposition d'outils logiciels automatisant l’acquisition et les traitements, l’usage de la plateforme est simplifié pour les utilisateurs. Les approches développées sont en particulier appliquée à la reconstruction précise d’objets manufacturés incluant des surfaces gauches et/ou (semi-)transparentes, en vue d’une évaluation dimensionnelle. Les précisions de reconstruction obtenues sont comparables à celles obtenues avec des systèmes de mesure traditionnels (en excluant les dispositifs mécaniques dédiés aux mesures de très haute précision). e81212df46bbaa0d55fe991ae963d409065e7468 351 349 2013-10-10T14:59:47Z Noblet 4 wikitext text/x-wiki Les applications de la vision par ordinateur nécessitent de plus en plus souvent une reconstruction 3D précise des objets à manipuler, à évaluer, etc. Ces applications de la vision par ordinateur sont appelées à prendre de plus en plus d’importance, avec de nombreux champs d'applications dans divers domaines industriels. La plateforme de métrologie du LSIIT met en œuvre de multiples techniques de reconstruction (stéréovision, lumière structurée, imagerie polarimétrique notamment), permettant de déterminer des modèles complexes (géométrie, texture, couleur,, etc.) par fusion des données acquises de nature différente. Par la mise à disposition d'outils logiciels automatisant l’acquisition et les traitements, l’usage de la plateforme est simplifié pour les utilisateurs. Les approches développées sont en particulier appliquée à la reconstruction précise d’objets manufacturés incluant des surfaces gauches et/ou (semi-)transparentes, en vue d’une évaluation dimensionnelle. Les précisions de reconstruction obtenues sont comparables à celles obtenues avec des systèmes de mesure traditionnels (en excluant les dispositifs mécaniques dédiés aux mesures de très haute précision). [[file:robot-mesure.png]] 82eb950fc810d96a94650f41538663e5cb1a20e9 6 68 350 2013-10-10T14:59:12Z Noblet 4 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 37 352 278 2013-10-14T07:21:20Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, statistics, inverse problems (courses taught at Telecom Physique Strasbourg). </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to shape analysis, diffusion-weighted MRI data analysis, brain connectivity and networks study. <br> In collaboration with Stéphane Kremer (IMIS team, iCube), Félix Renard (GIPSA lab), Sophie Achard (GIPSA lab), Chantal Delon-Martin (''Grenoble Institut des Neurosciences'' (GIN)), and Francis Schneider (Strasbourg University Hospital). <br> <br> Related co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011 <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012 <br> Th. Gkamas, ''Traitement d'images de résonance magnétique de diffusion: construction de modèles statistiques pour la détermination de facteurs pronostics d'éveil dans le cas du coma'', ongoing work. * Inverse problems. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, iCube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> <big>'''Main current responsibilities'''</big><br> : Responsable de l'option ''Acquisition et Traitement d'Images'' (ATI) (troisième année, Télécom Physique Strasbourg) : Responsable du parcours ''Image et Vision'' (IV), master 2 IRIV : Co-responsable (avec Jihad Zallat, iCube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire iCube <big>'''Bio'''</big><br> : Electrical Engineering Degree (Supélec, 1990) : PhD degree (Signal Processing, University of Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big>'''Selected publications'''</big><br> * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 a2b267dbad68193a67c02ad8957cc8f345f2886c 0 37 353 352 2013-10-14T07:23:46Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room : C209<br> Tel : 03 68 85 44 88<br> Fax : 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, statistics, inverse problems (courses taught at Telecom Physique Strasbourg). </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to shape analysis, diffusion-weighted MRI data analysis, brain connectivity and networks study. <br> In collaboration with Stéphane Kremer (IMIS team, iCube), Félix Renard (GIPSA lab), Sophie Achard (GIPSA lab), Chantal Delon-Martin (''Grenoble Institut des Neurosciences'' (GIN)), and Francis Schneider (Strasbourg University Hospital). <br> <br> Related co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011 <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012 <br> Th. Gkamas, ''Traitement d'images de résonance magnétique de diffusion: construction de modèles statistiques pour la détermination de facteurs pronostics d'éveil dans le cas du coma'', ongoing work. * Inverse problems. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, iCube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> <big>'''Main current responsibilities'''</big><br> : Responsable de l'option ''Acquisition et Traitement d'Images'' (ATI) (troisième année, Télécom Physique Strasbourg) : Responsable du parcours ''Image et Vision'' (IV), master 2 IRIV : Co-responsable (avec Jihad Zallat, iCube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire iCube <big>'''Bio'''</big><br> : Electrical Engineering Degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big>'''Selected publications'''</big><br> * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 9f141a469b26ddaa092dae6f011a505f92c1aef3 100 56 354 284 2013-10-14T09:23:44Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' F. Rousseau ''Investigators :'' E. Baudrier, A. Bentaieb, L. Boubchir, F. Champ, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Schweitzer, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 35205a91916bdb8cd5250090400fb00847ef744e 355 354 2013-10-14T09:34:56Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' F. Rousseau ''Investigators :'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, A. Dufour, F. Hubele, F. Lavigne, J. Pontabry, S. M. Phan Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 8304877b69f78313161994a57fa121a7083f1fcc 6 69 356 2013-11-12T20:27:01Z Baudrier 14 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 370 356 2013-11-14T16:37:16Z Noblet 4 Noblet uploaded a new version of &quot;[[File:SujetM2 R tomo Eng.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 12 357 37 2013-11-12T20:30:35Z Baudrier 14 wikitext text/x-wiki * M2 internship (beginning of 2014) in discrete geometry ** on multiresolution behavior of length estimators: [[:File:SujetM2_R_tomo_Eng.pdf|subject]] ** supervisers: L. Mazo, E. Baudrier and M. Tajine [[fr:Stages]] 4e212ece52d45859cb4c5fb31c7a0478b3ef565e 358 357 2013-11-12T20:32:54Z Baudrier 14 wikitext text/x-wiki * M2 internship (beginning of 2014) in discrete geometry ** on multiresolution behavior of length estimators: [[:File:SujetM2_R_tomo_Eng.pdf|subject]] ** supervisers: L. Mazo, E. Baudrier and M. Tajine [[fr:Stage]] f965d0cb8a05fa957a2146d778c4fee09c6fdc81 359 358 2013-11-12T20:40:24Z Baudrier 14 wikitext text/x-wiki * M2 internship (beginning of 2014) in discrete geometry ** on multiresolution behavior of length estimators: [[:File:SujetM2_R_tomo_Eng.pdf|subject.pdf]] ** supervisers: [[Loïc_Mazo|L. Mazo]], [[Etienne_Baudrier|É. Baudrier]], [[Mohamed_TAJINE|M. 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Availability |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 mois || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 mois || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 mois || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 mois || master 2 || open |- |} [[fr:Stage]] af5ce3b6eb53e699c16a27bdf37790987e9ab80e 375 374 2013-11-15T08:35:52Z Noblet 4 /* Intership available for 2014: */ wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] b92a6a7acd5d41935304b08a92ab0331a8fc99b8 0 4 361 343 2013-11-13T13:22:47Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien], research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] e2dd1d876f02602b82664d8f39f588dc21bba6b3 362 361 2013-11-13T13:23:34Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 7f2ebed90dc3a7fdd3040f5e1ae6df15b55ae221 363 362 2013-11-13T13:56:26Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] a6b18b90ad9451519aa5c379759bebcba7be16f3 364 363 2013-11-13T13:56:42Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 1b370cd5fd4760c854bfe8ad4830d8385a62f50d 376 364 2013-11-18T09:57:26Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] a1bd5ed71ebe36889066af88b1e29c95e9ebb894 394 376 2013-11-29T16:15:05Z Cronse 12 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] bba67626f25fcf5dbd607e79971a791feaf04413 398 394 2013-12-09T09:48:39Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 397749160774ce72c081d97883587bab813e29d0 6 70 365 2013-11-14T16:19:48Z Noblet 4 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 377 2013-11-19T20:27:48Z Ahmad 38 Created page with "'''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - 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MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> == <big>Curriculum Vitae</big> == * [[:File:CV.pdf]] a15b4f995b155c750391e09b8e6d9a458f6576ca 384 383 2013-11-21T19:52:56Z Ahmad 38 /* Curriculum Vitae */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> 2fbc6754e3fcf47796fe02089e6e66b1df77222d 389 384 2013-11-21T20:30:13Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> <br /> <big>Curriculume Vitae </big> * [[:File:CV.pdf]] f6ee37f7c94a529e8a5c68de475ed1b7b5e26398 390 389 2013-11-21T20:35:26Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> <br /> <big>Curriculume Vitae </big> * [[media:CV.pdf]] 0a52c126ed6e64caf03182ab902f73ac1a17025f 392 390 2013-11-21T20:39:21Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> <br /> <big>'''Curriculume Vitae''' </big> * [[media:CV.pdf]] 1d7c80f1fdc39b13be17fcbb26dbe05c230763d3 6 72 379 2013-11-21T19:43:39Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 380 379 2013-11-21T19:47:10Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 381 380 2013-11-21T19:47:42Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 382 381 2013-11-21T19:51:49Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 385 382 2013-11-21T19:54:43Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 386 385 2013-11-21T20:25:13Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 387 386 2013-11-21T20:27:48Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 388 387 2013-11-21T20:29:44Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 391 388 2013-11-21T20:36:15Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 24 393 193 2013-11-29T16:12:08Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : cronse@unistra.fr<br> Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour (2013/10/10), H. Rojbani. </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] </P> <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=ronse&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 7871c953e0e87983dfec2c4c21798721a899b87a 0 73 395 2013-11-29T16:15:35Z Cronse 12 Created page with "Ph.D. student" wikitext text/x-wiki Ph.D. student 2a2cd0ca3f16bf99ec0ff22a9a4cdcee6f11ae10 0 6 396 243 2013-12-09T06:04:44Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous </anyweb> 96f535b9418e6c295bbb2f5cafe72e1737ba4ce6 397 396 2013-12-09T06:20:39Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> d26bfcdeb5756443b0221f6c0ded021de998775d 8 2 399 348 2013-12-16T15:07:11Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV df385ca5a2a1581cf8df1c4cb52eba4d022e3f4f 100 74 400 2013-12-16T16:58:14Z Noblet 4 Created page with "DEPOT DE BREVET: Titre: Dispositif pour compenser la dérive d'un déphasage d'un modulateur d'état de polarisation d'un faisceau lumineux Date de dépôt: 10 juillet 20..." wikitext text/x-wiki DEPOT DE BREVET: Titre: Dispositif pour compenser la dérive d'un déphasage d'un modulateur d'état de polarisation d'un faisceau lumineux Date de dépôt: 10 juillet 2013 Inventeurs: J. Zallat, M. Torzynski, C. Heinrich, A. Lallement Description (en quinze lignes) : Mesurer la polarisation de la lumière provenant d’une scène repose essentiellement sur la possibilité de construire un analyseur de l’état de polarisation ou PSA (Polarization State Analyzer) qui permet d’accéder au vecteur de Stokes de la lumière provenant de chaque pixel de l’objet. Cela se fait par l’utilisation d’éléments biréfringents tels que les lames à retards fixes mobiles en rotation ou des éléments à cristaux liquides (LCVR) qui présentent l’avantage de ne nécessiter aucun élément mécanique et permettent des cadences d’acquisition proches de la cadence vidéo. Cependant, les modulateurs à base de cristaux liquides sont connus par leur sensibilité à la température et leur dérive de phase ce qui amène à des procédures d’étalonnage (trop) récurrentes des polarimètres. Cette invention propose une nouvelle architecture basée sur les modulateurs à cristaux liquides propre aux Analyseurs/Générateurs d’états de polarisation d’un instrument de mesure de la polarisation (polarimètre). Cette architecture permet d’éliminer les effets indésirables de la dérive de phase et par conséquent la nécessité d’étalonner l’instrument avant chaque mesure. Dans cette architecture, les effets de dérive dus à la température d’un modulateur sont compensés par les effets de dérive d’un autre modulateur qui lui est associé. 00f21a1221844dc504061333d07274d9a7608808 401 400 2013-12-16T16:59:13Z Noblet 4 wikitext text/x-wiki [[fr:Faits_marquants]] DEPOT DE BREVET: Titre: Dispositif pour compenser la dérive d'un déphasage d'un modulateur d'état de polarisation d'un faisceau lumineux Date de dépôt: 10 juillet 2013 Inventeurs: J. Zallat, M. Torzynski, C. Heinrich, A. Lallement Description (en quinze lignes) : Mesurer la polarisation de la lumière provenant d’une scène repose essentiellement sur la possibilité de construire un analyseur de l’état de polarisation ou PSA (Polarization State Analyzer) qui permet d’accéder au vecteur de Stokes de la lumière provenant de chaque pixel de l’objet. Cela se fait par l’utilisation d’éléments biréfringents tels que les lames à retards fixes mobiles en rotation ou des éléments à cristaux liquides (LCVR) qui présentent l’avantage de ne nécessiter aucun élément mécanique et permettent des cadences d’acquisition proches de la cadence vidéo. Cependant, les modulateurs à base de cristaux liquides sont connus par leur sensibilité à la température et leur dérive de phase ce qui amène à des procédures d’étalonnage (trop) récurrentes des polarimètres. Cette invention propose une nouvelle architecture basée sur les modulateurs à cristaux liquides propre aux Analyseurs/Générateurs d’états de polarisation d’un instrument de mesure de la polarisation (polarimètre). Cette architecture permet d’éliminer les effets indésirables de la dérive de phase et par conséquent la nécessité d’étalonner l’instrument avant chaque mesure. Dans cette architecture, les effets de dérive dus à la température d’un modulateur sont compensés par les effets de dérive d’un autre modulateur qui lui est associé. 232ca9a3a1ea037d23a0f175711354920f628663 402 401 2013-12-17T10:13:40Z Mazet 3 wikitext text/x-wiki [[fr:Faits_marquants]] == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] et [[Alex Lallement]] ont déposé un brevet sur un dispositif pour compenser la dérive d'un déphasage d'un modulateur d'état de polarisation d'un faisceau lumineux. Mesurer la polarisation de la lumière provenant d'une scène repose essentiellement sur la possibilité de construire un analyseur de l'état de polarisation ou PSA (Polarization State Analyzer) qui permet d'accéder au vecteur de Stokes de la lumière provenant de chaque pixel de l'objet. Cela se fait par l'utilisation d'éléments biréfringents tels que les lames à retards fixes mobiles en rotation ou des éléments à cristaux liquides (LCVR) qui présentent l'avantage de ne nécessiter aucun élément mécanique et permettent des cadences d'acquisition proches de la cadence vidéo. Cependant, les modulateurs à base de cristaux liquides sont connus par leur sensibilité à la température et leur dérive de phase ce qui amène à des procédures d'étalonnage (trop) récurrentes des polarimètres. Cette invention propose une nouvelle architecture basée sur les modulateurs à cristaux liquides propre aux Analyseurs/Générateurs d'états de polarisation d'un instrument de mesure de la polarisation (polarimètre). Cette architecture permet d'éliminer les effets indésirables de la dérive de phase et par conséquent la nécessité d'étalonner l'instrument avant chaque mesure. Dans cette architecture, les effets de dérive dus à la température d'un modulateur sont compensés par les effets de dérive d'un autre modulateur qui lui est associé. ===== Results of the project ERC FBrain ===== Le projet [[ERC FBrain]] (2008-2013), porté par [[François Rousseau]], est arrivée à son terme. Les progrès récents de l'imagerie médicale nous permettent maintenant de quantifier la maturation des tissus du cerveau au stade fœtal, et ouvre une nouvelle voie sur la compréhension du développement rapide du cerveau in utero. Ces avancées complètent les travaux déjà réalisés dans l'imagerie au niveau cellulaire dans les études animales et post mortem sur le développement du cerveau. Les techniques d'IRM rapides sont capables maintenant de « geler » le mouvement de la tête du fœtus lors de l'acquisition d'une image. La combinaison avec des algorithmes avancés de post-traitement permet de reconstruire des images 3D du cerveau fœtal. Ces nouvelles images ont motivé le développement de nouvelles techniques pour étiqueter automatiquement les zones de tissus en développement dans les données d'IRM permettant leur quantification précise en 3D. Ces méthodes ont servi de base de travail pour créer les premières cartes du taux de croissance des tissus et de certains motifs du développement cortical in utero. Nos travaux ont également montré que l'estimation du connectome (c'est à dire le réseau des fibres nerveuses cérébrales) chez le fœtus est dorénavant possible in utero. Ces mesures fournissent des conclusions précieuses qui complètent ceux issus des études post-mortem, et permettent en outre la possibilité de grandes études de population concernant l'influence des gènes et de l'environnement maternel sur le développement précoce du cerveau. Colin Studholme, François Rousseau, « [http://Quantifying%20and%20modelling%20tissue%20maturation%20in%20the%20living%20human%20fetal%20brain http://www.sciencedirect.com/science/article/pii/S0736574813001032] », ''International Journal of Developmental Neuroscience'', 2013 c72abf04c61378be3be42573bf2e3968a01de3cd 0 18 403 336 2013-12-20T09:13:39Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software : BTK (baby brain toolkit), developed with A. Bentaieb, L. Boubchir, B. Caldairou, F. Champ, E. Oubel, J. Pontabry, M. Schweitzer. ([http://rousseau.github.io/fbrain github webpage], [https://github.com/rousseau/fbrain github repository], [http://www.nitrc.org/projects/btk nitrc webpage], [http://youtu.be/I7_4L1psn44 youtube]). * Project : [http://icube-miv.unistra.fr/en/index.php/ERC_FBrain ERC FBRAIN] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 82a0beb47fb53d0cd04ef6b8f7f0d0b736fb38ab 100 74 404 402 2013-12-20T09:36:28Z Heinrich 29 /* Patent */ wikitext text/x-wiki [[fr:Faits_marquants]] == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] and [[Alex Lallement]] are the inventors of a patented device whose aim is to compensate the dephasing drift of a polarization state modulator. This device is based on liquid crystal modulators. The drift of one modulator is compensated by the drift of another modulator. The instrument needs no more being calibrated. ===== Results of the project ERC FBrain ===== Le projet [[ERC FBrain]] (2008-2013), porté par [[François Rousseau]], est arrivée à son terme. Les progrès récents de l'imagerie médicale nous permettent maintenant de quantifier la maturation des tissus du cerveau au stade fœtal, et ouvre une nouvelle voie sur la compréhension du développement rapide du cerveau in utero. Ces avancées complètent les travaux déjà réalisés dans l'imagerie au niveau cellulaire dans les études animales et post mortem sur le développement du cerveau. Les techniques d'IRM rapides sont capables maintenant de « geler » le mouvement de la tête du fœtus lors de l'acquisition d'une image. La combinaison avec des algorithmes avancés de post-traitement permet de reconstruire des images 3D du cerveau fœtal. Ces nouvelles images ont motivé le développement de nouvelles techniques pour étiqueter automatiquement les zones de tissus en développement dans les données d'IRM permettant leur quantification précise en 3D. Ces méthodes ont servi de base de travail pour créer les premières cartes du taux de croissance des tissus et de certains motifs du développement cortical in utero. Nos travaux ont également montré que l'estimation du connectome (c'est à dire le réseau des fibres nerveuses cérébrales) chez le fœtus est dorénavant possible in utero. Ces mesures fournissent des conclusions précieuses qui complètent ceux issus des études post-mortem, et permettent en outre la possibilité de grandes études de population concernant l'influence des gènes et de l'environnement maternel sur le développement précoce du cerveau. Colin Studholme, François Rousseau, « [http://Quantifying%20and%20modelling%20tissue%20maturation%20in%20the%20living%20human%20fetal%20brain http://www.sciencedirect.com/science/article/pii/S0736574813001032] », ''International Journal of Developmental Neuroscience'', 2013 1b3f42b2a95e053b0ee4e87a86fd2fcbbcd14493 405 404 2013-12-20T14:05:01Z Heinrich 29 /* Patent */ wikitext text/x-wiki [[fr:Faits_marquants]] == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] and [[Alex Lallement]] are the inventors of a patented device whose aim is to compensate the dephasing drift of a polarization state modulator. This device is based on liquid crystal modulators. The drift of one modulator is compensated by the drift of another modulator. This alleviates the need to recurrently calibrate the instrument. ===== Results of the project ERC FBrain ===== Le projet [[ERC FBrain]] (2008-2013), porté par [[François Rousseau]], est arrivée à son terme. Les progrès récents de l'imagerie médicale nous permettent maintenant de quantifier la maturation des tissus du cerveau au stade fœtal, et ouvre une nouvelle voie sur la compréhension du développement rapide du cerveau in utero. Ces avancées complètent les travaux déjà réalisés dans l'imagerie au niveau cellulaire dans les études animales et post mortem sur le développement du cerveau. Les techniques d'IRM rapides sont capables maintenant de « geler » le mouvement de la tête du fœtus lors de l'acquisition d'une image. La combinaison avec des algorithmes avancés de post-traitement permet de reconstruire des images 3D du cerveau fœtal. Ces nouvelles images ont motivé le développement de nouvelles techniques pour étiqueter automatiquement les zones de tissus en développement dans les données d'IRM permettant leur quantification précise en 3D. Ces méthodes ont servi de base de travail pour créer les premières cartes du taux de croissance des tissus et de certains motifs du développement cortical in utero. Nos travaux ont également montré que l'estimation du connectome (c'est à dire le réseau des fibres nerveuses cérébrales) chez le fœtus est dorénavant possible in utero. Ces mesures fournissent des conclusions précieuses qui complètent ceux issus des études post-mortem, et permettent en outre la possibilité de grandes études de population concernant l'influence des gènes et de l'environnement maternel sur le développement précoce du cerveau. Colin Studholme, François Rousseau, « [http://Quantifying%20and%20modelling%20tissue%20maturation%20in%20the%20living%20human%20fetal%20brain http://www.sciencedirect.com/science/article/pii/S0736574813001032] », ''International Journal of Developmental Neuroscience'', 2013 d73bc426e4b0a687b8f1ea2f4d30003084c3a3c8 416 405 2014-01-07T08:02:27Z Rousseau 10 wikitext text/x-wiki [[fr:Faits_marquants]] == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] and [[Alex Lallement]] are the inventors of a patented device whose aim is to compensate the dephasing drift of a polarization state modulator. This device is based on liquid crystal modulators. The drift of one modulator is compensated by the drift of another modulator. This alleviates the need to recurrently calibrate the instrument. ===== Results of the project ERC FBrain ===== The [[ERC FBrain]] project (2008-2013), led by [[François Rousseau]], came to an end. Recent advances in medical imaging now allow us to quantify the maturation of brain tissue in the fetal stage, and opens a new avenue to understanding the rapid brain development in utero. These developments complement the work already done in imaging at the cellular level in animal and post mortem brain development studies. The fast MRI acquisition techniques are now able to "freeze" the motion of the fetal head during image acquisition. Reconstructing 3D images of the fetal brain is now feasible by using advanced post-processing algorithms. These new 3D images have motivated the development of new techniques for automatically labeling areas developing tissues in MRI data to their precise quantification. These methods were the basis of work to create the first maps of the growth of tissues and some patterns of cortical development in utero. Our work also showed that the estimate of connectome (i.e. the network of the fibers in the brain) in the fetus in utero is now possible. These measurements provide valuable conclusions that complement those from post mortem studies, and also allow the possibility of large population studies on the influence of genes and the maternal environment on early brain development. Colin Studholme, François Rousseau, « [http://dx.doi.org/10.1016/j.ijdevneu.2013.06.006 Quantifying and modelling tissue maturation in the living human fetal brain] », ''International Journal of Developmental Neuroscience'', 2013 581c97dff02ede1426f4726a182e48afe686a3d9 6 72 406 391 2014-01-05T18:22:06Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:CV.pdf]]&quot;: MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 407 392 2014-01-05T18:27:05Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]] <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' 3c1e3702dd7decb00d6713d9ac1d6f0d900f4c11 439 407 2014-02-05T19:34:47Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' 016968a64be96189f9f1245737dc9f9694bb585d 440 439 2014-02-05T19:35:37Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>*'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' a9c86eea5aaa59a2160daf00ca8548149162392d 441 440 2014-02-05T19:36:01Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' 016968a64be96189f9f1245737dc9f9694bb585d 442 441 2014-02-05T20:10:47Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''<big> <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' 9790ad417cabc67ee843f04451b7b5139f53229d 443 442 2014-02-05T20:14:09Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' 94731153763b35101cb985ca18aa4356f2e50ac3 0 75 408 2014-01-05T18:38:00Z Ahmad 38 Created page with "[[Ola Ahmad]]" wikitext text/x-wiki [[Ola Ahmad]] ed6c697c5534856098e3436c0848909795b48e5d 409 408 2014-01-05T18:38:59Z Ahmad 38 wikitext text/x-wiki '''[[Ola Ahmad]]''' ce32da6c3297595d331de246a9f02c695d5ed58f 410 409 2014-01-05T18:39:48Z Ahmad 38 wikitext text/x-wiki == '''[[Ola Ahmad]]''' == ec8f93994dacd69f8b6cea8e2a6112dc0061ae41 411 410 2014-01-05T18:40:18Z Ahmad 38 wikitext text/x-wiki '''[[<big>Big Ola Ahmad</big>]]''' ecbea68ae71cc13e23ee4bbbad1ea21e29b9bd27 412 411 2014-01-05T18:40:35Z Ahmad 38 wikitext text/x-wiki '''[[<big>Ola Ahmad</big>]]''' 12ac7d0a4d47330b9e7d7b018c5e98d95a32e969 413 412 2014-01-05T18:40:51Z Ahmad 38 wikitext text/x-wiki <big>'''[[Ola Ahmad]]'''</big> 9d808a55c47e56be1402aa2a5f89fa4bf5c227d5 0 19 414 294 2014-01-07T07:50:52Z Rousseau 10 wikitext text/x-wiki [[File:logo_erc.png|400px]] Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[François Rousseau]] (PI) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] [[File:erc_pipeline_UK.png|center|upright=7]] 6a614c6f5919f3b0fa05d489e7d1c3290d6da896 415 414 2014-01-07T07:52:22Z Rousseau 10 wikitext text/x-wiki [[File:logo_erc.png|400px]] '''Project dates''': 2008 - 2013 Studies about brain maturation aim at providing a better understanding of brain development and links between brain changes and cognitive development. Such studies are of great interest for diagnosis help and clinical course of development and treatment of illnesses. Several teams have begun to make 3D maps of developing brain structures from children to young adults. However, working out the development of fetal and neonatal brain remains an open issue. This project aims at jumping over several theoretical and practical barriers and at going beyond the formal description of the brain maturation thanks to the development of a realistic numerical model of brain aging. '''People involved in the project:''' * [[François Rousseau]] (PI) * [[Christian Heinrich]] * [[Vincent Noblet]] * M. Koob * E. Oubel * B. Caldairou * [[Julien Pontabry]] * [[Marc Schweitzer]] * [[Aicha bentaieb]] * [[Frédéric Champ]] * [[Larbi Boubchir]] [[File:erc_pipeline_UK.png|center|upright=7]] 61ea23cf395c4d32ce94f75a3bae9a619970d9f0 100 56 417 355 2014-01-09T16:00:19Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' F. Rousseau ''Investigators :'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, F. Hubele, F. Lavigne, S. M. Phan ''Post doc :'' A. Dufour Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 45434fc4dd95ebacc1840e31d7d746272988fee3 418 417 2014-01-09T16:02:23Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head :'' F. Rousseau ''Investigators :'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Tajine, L. Thoraval ''Ph. D. students :'' A. Bouchon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary ''Post doc :'' A. Dufour Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. e47924a2fcc4df418fee9aae7751d94dc20d8af1 419 418 2014-01-09T16:02:54Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, F. Rousseau, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary ''Post doc:'' A. Dufour Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 16293ac32811e136eb5d3f1551a315df5c9628f6 427 419 2014-01-09T17:20:56Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary ''Post doc:'' A. Dufour Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. aaf99123e2c63f14e641314d0cddee711b69f3b6 0 4 420 398 2014-01-09T16:40:35Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 993f5cf572b6245ec4b1354b01f17d3303e45029 421 420 2014-01-09T16:42:21Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | GRIGIS Antoine || Post-PhD student || || || |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 2002bc510c566903a5344f740af364a2c38a9f53 422 421 2014-01-09T16:42:56Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 09d11cb00d6d45586beba95fbfdb152c74c748a2 423 422 2014-01-09T16:45:07Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] c548b2905779234042698374ab0a2d58c7f943ee 424 423 2014-01-09T16:47:11Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 493e92aa6f53f56458b4efa2e258bb46b75ea571 425 424 2014-01-09T16:48:28Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] d78548a95ca779dca1816525cdf788f455cfdfe4 426 425 2014-01-09T16:49:48Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || Doctorant CIFRE || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] c89ba9748e6433e05a5360cfda262667efc47a73 429 426 2014-01-16T17:30:30Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || Doctorant CIFRE || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 2b4e1053cf5d67827fcbaaafc113ab750442ca0d 437 429 2014-02-05T10:47:47Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || Doctorant CIFRE || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || Doctorante || || || sourty(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] d0b91b083447913a43a7d6f7ce1744cd8e0034f2 438 437 2014-02-05T10:48:20Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[ Alice Dufour|DUFOUR Alice]] || PhD student || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 4a5847a3e5b8dec38661dfd1b8933ece84a0e871 0 73 428 395 2014-01-10T12:51:22Z Cronse 12 wikitext text/x-wiki [[fr:Hmida Rojbani]] Ph.D. student 0589430cab3aa04b89ecc5ac9cb0084eddcb44b9 430 428 2014-01-21T00:37:17Z Rojbani 41 wikitext text/x-wiki <big>'''Ph.D. student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Email : ''hmida.rojbani@etu.unistra.fr''<br /> Url = https://www.researchgate.net/profile/Hmida_Rojbani/<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> Thesis Title :<big> '''Shape recognition in volumetric grayscale images : Application to cell biological imaging''' </big> </center> Directors : Pr. [[Christian Ronse|Christian RONSE]] and Pr. Khaled BSAÏES<br /> Supervisors : [[Etienne Baudrier|Etienne BAUDRIER]], [[Benoît Naegel|Benoît NAEGEL]] and Atef Hamouda<br /> 4088bff9a01ec35dbf2d63e7ec91dbe0919b89f9 431 430 2014-01-21T00:39:18Z Rojbani 41 wikitext text/x-wiki <big>'''Ph.D. student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /> Email : ''hmida.rojbani@etu.unistra.fr''<br /> Url : https://www.researchgate.net/profile/Hmida_Rojbani/<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research activities == <center> Thesis Title :<big> '''Shape recognition in volumetric grayscale images : Application to cell biological imaging''' </big> </center> Directors : Pr. [[Christian Ronse|Christian RONSE]] and Pr. Khaled BSAÏES<br /> Supervisors : [[Etienne Baudrier|Etienne BAUDRIER]], [[Benoît Naegel|Benoît NAEGEL]] and Atef Hamouda<br /> e2266f29862f7e98687ae130757218f4eaf88098 0 17 432 47 2014-01-31T19:41:04Z Naegel 6 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 48 56 <br /> <br /> Office : '''C230''' <br /> Mail : '''b.naegel@unistra.fr'''<br /> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> e80165ade03804a98c0d5de1f7ed6d256723d289 451 432 2014-02-10T09:27:59Z Naegel 6 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br />Tel : + 33 (0) 3 68 85 48 56 <br /> Bureau : '''C230''' <br /> Courriel : '''b.naegel@unistra.fr'''<br /> [http://scholar.google.com/citations?user=yH72muEAAAAJ Google Scholar] [http://www.informatik.uni-trier.de/~ley/pers/hd/n/Naegel:Beno=icirc=t.html DBLP] <br/> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 988e1757f1c7020e9ad57007e3b2877eeae215d3 0 3 433 287 2014-02-04T13:39:01Z Noblet 4 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] ecbcbac99e3b29566a982d4ca07c92a7ecbe8376 435 433 2014-02-05T10:42:58Z Noblet 4 wikitext text/x-wiki <span style="font-size: 150%; border: "><font color="#e31419">[[Fichier:123gifs005.gif|frameless]] Job opportunity: Developer for database management applications on life imaging within the project [https://project.inria.fr/fli/job-offers/ France Life Imaging]: job reference [https://project.inria.fr/fli/files/2014/01/FLI_IAM_WG3_Engineer_ICUBE_EN.pdf WG3_ICUBE]</font></span><br /> <br /><br /> [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] c463d158fe7e0de24c3fd50069d04639dbc7633e 436 435 2014-02-05T10:43:22Z Noblet 4 wikitext text/x-wiki <span style="font-size: 150%; border: "><font color="#e31419">[[File:123gifs005.gif|frameless]] Job opportunity: Developer for database management applications on life imaging within the project [https://project.inria.fr/fli/job-offers/ France Life Imaging]: job reference [https://project.inria.fr/fli/files/2014/01/FLI_IAM_WG3_Engineer_ICUBE_EN.pdf WG3_ICUBE]</font></span><br /> <br /><br /> [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 589f81d23090b594ab0f78c854d7101b37ed0ab5 6 76 434 2014-02-05T10:42:55Z Noblet 4 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 28 444 104 2014-02-05T20:47:08Z Lallement 23 /* Description of Activities */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Imagerie multimodale et planification interactive pour la reconstruction 3D et la métrologie dimensionnelle ", Thèse d'[[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " Reconstruction 3D de surfaces à transparence partielle ou totale basée sur la polarimétrie ", Thèse de Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Extraction contrôlée d’indices images et automatisation de la reconstruction 3D : application à la mesure dimensionnelle par vision par ordinateur ", Thèse de Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f58ebc7d70c08fd5d1eea836db15329996145c0d 445 444 2014-02-05T20:48:03Z Lallement 23 wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Imagerie multimodale et planification interactive pour la reconstruction 3D et la métrologie dimensionnelle ", Thèse d'[[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " Reconstruction 3D de surfaces à transparence partielle ou totale basée sur la polarimétrie ", Thèse de Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Extraction contrôlée d’indices images et automatisation de la reconstruction 3D : application à la mesure dimensionnelle par vision par ordinateur ", Thèse de Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f36595e8d8a0a310d50656317499723b478abab4 446 445 2014-02-05T20:57:33Z Lallement 23 /* Supervised thesis */ wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Imagerie multimodale et planification interactive pour la reconstruction 3D et la métrologie dimensionnelle ", Thèse d'[[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " 3D Shape recovery of transparent objects based on polarization state of light analysis", Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Extraction contrôlée d’indices images et automatisation de la reconstruction 3D : application à la mesure dimensionnelle par vision par ordinateur ", Thèse de Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ca205421ce10cd0a256277aedb1697ad1dcfb881 447 446 2014-02-05T20:59:23Z Lallement 23 /* Supervised thesis */ wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Imagerie multimodale et planification interactive pour la reconstruction 3D et la métrologie dimensionnelle ", Thèse d'[[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " 3D Shape recovery of transparent objects based on polarization state of light analysis", Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Controlled extraction of image features and 3D automation of 3D reconstruction : Application to vision-based dimensional measurement ", Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 297673208cbe002fafa16e419afb6d2f4719f550 448 447 2014-02-05T21:00:02Z Lallement 23 /* Supervised thesis */ wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Imagerie multimodale et planification interactive pour la reconstruction 3D et la métrologie dimensionnelle ", [[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " 3D Shape recovery of transparent objects based on polarization state of light analysis", Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Controlled extraction of image features and 3D automation of 3D reconstruction : Application to vision-based dimensional measurement ", Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 44d7dd2051643cf78acdaf9a5259f9235104210f 449 448 2014-02-05T21:01:20Z Lallement 23 /* Supervised thesis */ wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr'''<br />Website: <br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Multimodal imaging and interactive planning for 3D reconstruction and dimensional metrology ", [[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " 3D Shape recovery of transparent objects based on polarization state of light analysis", Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Controlled extraction of image features and 3D automation of 3D reconstruction : Application to vision-based dimensional measurement ", Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 115712f488081b48b0ca5e237a2c865a786e49e7 450 449 2014-02-05T21:11:41Z Lallement 23 wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 85<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C220''' <br /> E-mail: '''alex(dot)lallement(at)unistra(dot)fr''' |} </td> </table> == Description of activities== === Research === * Dimensional metrology and quantitative 3D reconstruction * Systems knowledge base for computer vision * Polarimetric imaging * Associated image processing and applications. === Supervised thesis === * " Multimodal imaging and interactive planning for 3D reconstruction and dimensional metrology ", [[Ammar HANNACHI|Ammar Hannachi]] (currently in progress), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Sophie Kohler * " 3D Shape recovery of transparent objects based on polarization state of light analysis", Romain Roux (2009), Co-supervised with [[E._Hirsch|Ernest Hirsch]], Jihad Zallat * " Controlled extraction of image features and 3D automation of 3D reconstruction : Application to vision-based dimensional measurement ", Redouane Khemmar (2005), Co-supervised with [[E._Hirsch|Ernest Hirsch]] === Teaching === [http://www.telecom-physique.fr Telecom Physique Strasbourg] 1A et 2A : Object-oriented programming (C++), software tools for signal processing and image, Man-machine interface (Microsoft .NET) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=lallement&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 1f083fb7f7b2760805f050aa3950186e3e2b630f 0 13 452 38 2014-02-27T13:15:26Z Rousseau 10 wikitext text/x-wiki No position available. [[fr:Thèse]] 064cda4fd16dc9d4cb58cfeff8a87f7089d736a5 0 38 453 177 2014-03-06T15:31:32Z Collet 2 wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> </td> </table> == Activities == <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 3d96b4322e36fec4c92d2604dabb9d2f1ebcc00c 0 3 454 436 2014-03-13T16:32:46Z Noblet 4 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] d5d15cdd9808b01962faa733ee8da1d2c707621f 6 77 455 2014-03-14T09:06:01Z Noblet 4 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 457 455 2014-03-14T09:08:34Z Noblet 4 Noblet uploaded a new version of &quot;[[File:MorphoMouse-6monthIntership.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 12 456 375 2014-03-14T09:06:51Z Noblet 4 wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthInternship.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 5364479bd0c97f7bb427724b0970bdabb4c87617 458 456 2014-03-14T09:11:40Z Noblet 4 wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:file:MorphoMouse-6monthInternship.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 8d05c1eef15326bc4987db698291d09406955a46 459 458 2014-03-14T09:12:03Z Noblet 4 wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthInternship|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] f607a98869960d324c46daef613c7a8e48272238 460 459 2014-03-14T09:12:28Z Noblet 4 wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthInternship.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 5364479bd0c97f7bb427724b0970bdabb4c87617 461 460 2014-03-14T09:47:44Z Noblet 4 wikitext text/x-wiki == Intership available for 2014: == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthIntership.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 7c415111d7734f84841ccff99788278e715f62a0 0 71 462 443 2014-03-15T16:57:54Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf]]''' a2ea47d680e6264f0211f13b8811913a2f012799 463 462 2014-03-15T16:59:27Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[[[media:CV.pdf|CV]]]]''' 619a54870de070262697630d1b59e3f7177c3006 464 463 2014-03-15T17:00:23Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' c3650aeb46b0fb213b4c127dbcc3b8d604712810 465 464 2014-03-15T17:01:36Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>''' * Bulleted list item PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> <big>''' * Bulleted list item Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' cb0973cb635c4f59bee6584c1d3125e7569519e8 466 465 2014-03-15T17:02:40Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>''':PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' b79bdf7c76346f728f9fe4e3a01765c747a27464 467 466 2014-03-15T17:03:45Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 2220487d4014bc553c5d51933138168fd48fa8fa 468 467 2014-03-15T17:05:41Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 617a85d3d80e6be47bec1c1806e874d08b17a53c 469 468 2014-03-15T17:21:12Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> '''Title:''' <br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' a7f1dbb76d2c1e8702791b38e2d571723dd4cdef 470 469 2014-03-15T17:21:43Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:''' <br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 097c566a3bb2ff9825513ef60e0a882b980bfada 471 470 2014-03-15T17:22:13Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> <br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' e0a4a8066b75381c92a4813efa9c7d953813243f 472 471 2014-03-15T17:22:35Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 85776908c061217199e4c6a99111e1b7a5b85334 473 472 2014-03-15T17:30:40Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications -- Activities </big>''' <br /> <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' f9d89c7dcf2538a9d13943490d8721a83716a931 474 473 2014-03-15T17:34:16Z Ahmad 38 /* == */ wikitext text/x-wiki '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 13926f682647fe61abad33f7d567b9b0a6124183 476 474 2014-03-15T17:45:57Z Ahmad 38 wikitext text/x-wiki <gallery> [[File:SPM_A0044.jpgnull]] </gallery> '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 77d0e30a32e52a7deb8a2dba2ec66b4a7a29b0a3 478 476 2014-03-15T17:51:13Z Ahmad 38 wikitext text/x-wiki <gallery> [[File:OlaCV.png|ola]] </gallery> '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' c22e711982332af99e0fbbf4822277f0b7bd44aa 479 478 2014-03-15T17:52:45Z Ahmad 38 wikitext text/x-wiki [[File:OlaCV.png|thumbnail|ola]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' efe59079336da147c95003312e9ddfcec63f2e00 481 479 2014-03-15T17:56:33Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail|ola]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' e0c7aaeebcf595025316232aa817264dc4162ef9 482 481 2014-03-15T17:56:53Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 5d7a37c6864ae32f875e0d795204cc53babc8bc8 483 482 2014-03-15T18:10:12Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> <ref>O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", {\it Pattern Recognition Letters}, Vol. 32, 15, pp. 2068-2079, November 2011.</ref> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 29a853741d9a370d1e85e72d95f06c90de8984de 484 483 2014-03-15T18:13:02Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> <references /> O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", {\it Pattern Recognition Letters}, Vol. 32, 15, pp. 2068-2079, November 2011. ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 3dc80d70097cdef980dcab64675a6157682d02d5 485 484 2014-03-15T18:15:31Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> <references /> International journals:<br /> O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", {\it Pattern Recognition Letters}, Vol. 32, 15, pp. 2068-2079, November 2011. ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 046a58fe99333d20f569b5bb2ebb9ee3407a3097 486 485 2014-03-15T18:18:38Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", {\it Stochastic Models}, Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's $t$ random field and the integral geometry of its excursion sets", {\it Statistics \& Probability Letters}, Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", {\it Journal of Electronic Imaging}, Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", {\it Pattern Recognition Letters}, Vol. 32, 15, pp. 2068-2079, November 2011.<br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 40628bfcc6db60884199b64fefe6841c6a29a8cd 487 486 2014-03-15T18:20:15Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's $t$ random field and the integral geometry of its excursion sets", ''Statistics \& Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 312298da542532d8c53a73a52ae81575a70ac59a 488 487 2014-03-15T18:23:30Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. ``Stochastic representation and analysis of rough surface topography``. ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' d1cdb673baf1d872e6f9f92d6c2989c52b6b5ef3 489 488 2014-03-15T18:32:39Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "Stochastic representation and analysis of rough surface topography". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli.``Integral geometry of linearly combined Gaussian and Student's $t$, and skew-student's $t$ random fields''. ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 3e93464009a0e4e41c701692016509b45c66fb09 490 489 2014-03-15T18:35:35Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topographyhy Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli."Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 89531d625fe0c68879a5b29dbc16bcd6d1a828f2 491 490 2014-03-15T18:36:56Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # [https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topographyhyO. Ahmad. "Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli."Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 90c1d3a68ea0a8bf3cfe2cda985c83d88315f172 492 491 2014-03-15T18:39:10Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli."[http://Integral%20geometry%20of%20linearly%20combined%20http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 516d93f9890dd9b6c1d81f725d9b706141499d68 493 492 2014-03-15T18:41:15Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields.", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization.", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' d34b1923109f5e991a874403a9000a269c6a8d9d 494 493 2014-03-15T18:49:33Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ.", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 790b3413981e64287b9cf6f4b5d2458f0b907fc9 495 494 2014-03-15T18:55:40Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''Book:'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''Book chapters:'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''International journals:'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''Conference publications and proceedings:'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 0983017527c90e9528e2bfe312c1f7cf6c05538c 496 495 2014-03-15T18:57:20Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== '''<big>Publications:</big>''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 6abedfc9adc26b4c22da8d90314cc592e3fe252c 497 496 2014-03-15T18:58:18Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> ====================================== ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 0a5ad3146c4e1dc6441e08de628c4b3bc8140b29 498 497 2014-03-15T18:59:28Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 58323bc4e02b6b76243f70e06f24f605a777b894 499 498 2014-03-15T19:01:14Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>''' === PhD === from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' a7d28348678b52296702f0dc197aed2376fb5a3c 500 499 2014-03-15T19:02:03Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months. <br /> <br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants. <br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /> <br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /> <br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 58323bc4e02b6b76243f70e06f24f605a777b894 501 500 2014-03-15T19:05:44Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> ====================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 7a589fadf75bbf6756fd3c17149dd4a3c70e66e6 502 501 2014-03-15T19:06:15Z Ahmad 38 /* == */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' a528713cbb62f1f74c861adf56171c74ea026c71 6 78 475 2014-03-15T17:45:30Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 79 477 2014-03-15T17:48:55Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 80 480 2014-03-15T17:56:14Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 503 502 2014-03-15T19:07:05Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> ======================================== <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 4e7f05aed620e2dcb1e4b2a876f78d613319e9d3 504 503 2014-03-15T19:09:31Z Ahmad 38 <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' c153471c05e86b589226e2652ef8fa45260c37b1 505 504 2014-03-15T19:10:54Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> ----------------------------- <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- ''' === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' c717eedd67089c5711fb63ee435d2152fd9eb966 506 505 2014-03-15T19:11:57Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ====================================== <big>'''Curriculume Vitae''' </big> * '''[[media:CV.pdf|CV]]''' 8d4588363ba3d8824d48e571566ddfd711b65c04 507 506 2014-03-15T19:14:00Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.<br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 435bb16ac31d344bef2f3e30ab77b8f15ce47017 515 507 2014-08-06T21:52:24Z Ahmad 38 /* Publications: */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/hal-00834849 <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.''[http://hal.archives-ouvertes.fr/hal-00733252 <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 1d0ae868ac612e45880034c6272473089dbdb291 516 515 2014-08-06T21:53:38Z Ahmad 38 /* Publications: */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013.''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011.''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011.''[http://hal.archives-ouvertes.fr/hal-00733252 <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' c34feed76d888edc0513c8e7129d11dcbc88cba0 517 516 2014-08-06T21:55:46Z Ahmad 38 /* Publications: */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 479783df0f449315f45b8d19c63f78ea4c436bba 537 517 2014-12-17T07:40:23Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project :Stochastic modeling and image analysis -- Application to temporal change detection in multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months.<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 0e45bdf7c5621b0cbfe348091754c2e13fa2ee3c 538 537 2014-12-17T07:52:28Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Postdoc project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 5271df062612c9eae0d5b32a044159ead4849765 539 538 2014-12-17T07:54:28Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:CV.pdf|CV]]''' 0ce5b5ae0e853f414513996d11ef43e8850a78bd 0 38 508 453 2014-03-26T09:21:13Z Collet 2 /* Activities */ wikitext text/x-wiki <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> </td> </table> == Activities ([http://lsiit-miv.u-strasbg.fr/paseo/collet.php[Link toward my webpage]])== <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/collet.php </anyweb> == Publications == <anyweb> http://lsiit-cnrs.unistra.fr/Publications/?author=collet&title=&labo=39&team=6&year=-1&annee1=&annee2=&display=rap&x=34&y=14&search=1&Hide=0&aff= </anyweb> 538c65e9e10bbae6b8f17f0be78661e999cabc36 100 56 509 427 2014-06-23T09:59:44Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary ''Post doc:'' O. Ahmad Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 13c617f1ccb5ba769755dc66aa8bdbf8fc29fff7 520 509 2014-10-07T09:19:20Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, L. Soustelle ''Post doc:'' O. Ahmad, P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, PEPS Tomomicro '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 769c1ec8ff988caa74b5d966f3ab509e24c5bbb2 521 520 2014-10-07T09:19:56Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, L. Soustelle ''Post doc:'' O. Ahmad, P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 04f7ab3ab16f93e0e9ef3b42a6e14101ecc778c5 524 521 2014-10-09T12:18:55Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' O. Ahmad, P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 357f128035637dcf3da0f1f896a6dacdc89f49ee 525 524 2014-10-09T12:20:44Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head:'' F. Rousseau ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' O. Ahmad, P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 63b2eeafdd7c849db8db41bd814dacf4abfcdf25 548 525 2015-02-06T17:55:58Z Rousseau 10 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' O. Ahmad, P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. b2edecefae3ba04197ecb85edea35dcc8ac7c12c 0 4 510 438 2014-06-23T10:00:28Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Balal Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] c4729c90d8467a48a8c2b21f68139e267cae371b 518 510 2014-08-11T15:42:45Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | MEFFRE Alban || PhD student || || || |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 4ef9705d2fb38e8316589065e3b5b101de7b0054 522 518 2014-10-08T15:26:35Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 94d9cb77345cf91c5ca2fe3556075586ebdeb8f2 523 522 2014-10-09T12:17:13Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 28d647d15d601e3a765fe3c7aa73f8ee0b62d2ef 526 523 2014-10-09T12:23:08Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 515c92246209f911f40c23af1ec3613eb41d1dff 530 526 2014-10-29T08:01:13Z Courbot 44 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || C223a || + 33 (0)3 68 85 44 84 || jb(dot)courbot(at)unistra.fr |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[François Rousseau|ROUSSEAU François]] || Research scientist || C211 || +33 3 68 85 44 89 || rousseau@unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 586e8cea78605f3eb95862dd8d6a0a93290b4afa 547 530 2015-02-06T17:55:28Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || C223a || + 33 (0)3 68 85 44 84 || jb(dot)courbot(at)unistra.fr |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * [[François Rousseau|ROUSSEAU François]] : professor at Telecom Bretagne * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 692156283baa8b8e19cf668135c7db74f44bc8ea 549 547 2015-02-10T13:32:10Z Rousseau 10 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[ Ola Ahmad|AHMAD Ola ]]|| Post-doc || C216 ||+33 (0)3.68.85 || oahmad @ unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || C223a || + 33 (0)3 68 85 44 84 || jb(dot)courbot(at)unistra.fr |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | KHOSHNOUDIRAD Daniel || PhD student || || || |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * [[François Rousseau|ROUSSEAU François]] : professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 8f6a4566ea4bd9acd268e99799f5c439dd82eac3 0 33 511 152 2014-06-27T14:08:11Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> CS 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 89a21fa3c9dafcdc964743663b6f4d3ecac52229 512 511 2014-06-27T14:15:12Z Tgkamas 28 /* Publications */ wikitext text/x-wiki <big>'''Ph.D. Student'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> CS 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == '''Journals''' 1. [http://link.springer.com/article/10.1007%2Fs10851-014-0494-3 Variational-Bayes Optical Flow] :* Journal of Mathematical Imaging and Vision<br /> :* January 2014.<br /> :'''Authors:''' Giannis Chantas, [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented, where the motion vectors are considered to be spatially varying Student’s ''t''-distributed unobserved random variables, i.e., the prior is a multivariate Student’s ''t''-distribution, while the only observations available is the temporal and spatial image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student’s t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework with update equations analogous to the Horn-Schunck approach. This is accomplished in a principled probabilistic framework where all of the model parameters are estimated automatically from the data. Experimental results show the improvement obtained by the proposed model which may substitute the standard algorithm in the initialization of more sophisticated optical flow schemes.'' <br /> '''Conferences''' 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 9b5168762f657bbaff2dec6ca85198188df7a8ae 513 512 2014-06-27T14:16:24Z Tgkamas 28 wikitext text/x-wiki <big>'''Ph.D. Candidate'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> CS 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == '''Journals''' 1. [http://link.springer.com/article/10.1007%2Fs10851-014-0494-3 Variational-Bayes Optical Flow] :* Journal of Mathematical Imaging and Vision<br /> :* January 2014.<br /> :'''Authors:''' Giannis Chantas, [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented, where the motion vectors are considered to be spatially varying Student’s ''t''-distributed unobserved random variables, i.e., the prior is a multivariate Student’s ''t''-distribution, while the only observations available is the temporal and spatial image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student’s t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework with update equations analogous to the Horn-Schunck approach. This is accomplished in a principled probabilistic framework where all of the model parameters are estimated automatically from the data. Experimental results show the improvement obtained by the proposed model which may substitute the standard algorithm in the initialization of more sophisticated optical flow schemes.'' <br /> '''Conferences''' 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 9828f196bf5a9b759bd7a84239eb1c6f2c11104b 514 513 2014-06-30T12:16:05Z Tgkamas 28 /* Publications */ wikitext text/x-wiki <big>'''Ph.D. Candidate'''</big><br /> <table width=100%> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> CS 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: 49534<br /> Office: '''C227a'''<br /> <br />E-mail: '''tgkamas(at)unistra(dot)fr'''<br /> <br /> |} Url : http://www.linkedin.com/pub/theodosios-gkamas/42/7a/435<br /> </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == brief CV == <br /> :Theodosios N. GKAMAS was born in Ioannina, Greece, in 1985. He was admitted at the Computer Science Department of the University of Ioannina in 2003. He received his B.Sc. diploma in Computer Science in 2008 with degree 7.32/10 “Very Good”. That year he became a postgraduate student at the same institution from where he graduated in October 2010, with degree 9.90/10 "Excellent". At this moment, he is a Ph.D. candidate and a researcher at the University of Strasbourg in France. His main research interests lie in the field of Computer Vision, Signal & Image Processing, Medical Imaging, Bio-informatics and Machine Learning with specific interests in Optical Flow and Image Registration. <br /> '''Specialties''' <br /> <br /> :Signal & Image Processing, Image Registration, Optical Flow, Object Tracking and Development of iPhone/iPod touch/iPad Applications.<br /> == Education == * [http://unistra.fr/ University of Strasbourg, FRANCE] :[http://www-edmsii.u-strasbg.fr/ École Doctorale MSII (ED n°269) « Mathematics, Information and Engineering Sciences »] :2011 – 2014 (''expected'') :'''Theme''': "Image processing of diffusion magnetic resonance (diffusion MRI) : construction of statistical models to determine prognostic factors of awakening in the case of coma." <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''M.Sc.''', [http://www.cs.uoi.gr/ Computer Science], with specialization in Technologies & Applications :2008 – 2010 :'''Degree:''' 9.90/10, “EXCELLENT” :'''Thesis:''' “Optical flow estimation using spatially varying smoothing”. [http://cs.uoi.gr/tech_reports//publications/MT-2010-20.pdf [pdf<nowiki>]</nowiki>] :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> * [http://www.uoi.gr/ University of Ioannina, GREECE] :'''B.Sc.''', [http://www.cs.uoi.gr/ Computer Science] :2003 – 2008 :'''Degree:''' 7.32/10, “VERY GOOD” :'''Diploma Thesis:''' “Signal and image registration by using generalized elastic nets”. :'''Supervisor:''' Assistant Professor [http://cs.uoi.gr/~cnikou C. Nikou]. <br /> == Publications == '''Journals''' 1. [http://link.springer.com/article/10.1007%2Fs10851-014-0494-3 Variational-Bayes Optical Flow] :* Journal of Mathematical Imaging and Vision<br /> :* January 2014.<br /> :'''Authors:''' Giannis Chantas, [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> <br /> '''Conferences''' 1. [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6004871 Guiding optical flow estimation using superpixels] :* IEEE 17th International Conference on Digital Signal Processing (DSP '11)<br /> :* July 6, 2011, Corfu, Greece.<br /> :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], [http://www.cs.uoi.gr/%7Ecnikou Christophoros Nikou]<br /> :'''Abstract:''' ''In this paper, we show how the segmentation of an image into superpixels may be used as preprocessing paradigm to improve the accuracy of the optical flow estimation in an image sequence. Superpixels play the role of accurate support masks for the integration of the optical flow equation. We employ a variation of a recently proposed optical flow algorithm relying on local image properties that are taken into account only if the involved pixels belong to the same image segment. Experimental results show that the proposed optical flow estimation scheme significantly improves the accuracy of the estimated motion field with respect to other standard methods.'' <br /> 2. [https://iapr.papercept.net/conferences/scripts/abstract.pl?ConfID=7&Number=59 A probabilistic formulation of the optical flow problem.] :* 21st International Conference on Pattern Recognition (ICPR '12) :* November 11-15, 2012, Tsukuba, Japan. :'''Authors:''' [[GKAMAS_Theodosios|Theodosios Gkamas]], Giannis Chantas, [http://cs.uoi.gr/~cnikou Christophoros Nikou] :'''Abstract:''' ''The Horn-Schunck (HS) optical flow method is widely employed to initialize many motion estimation algorithms. In this work, a variational Bayesian approach of the HS method is presented where the motion vectors are considered to be spatially varying Student's t-distributed unobserved random variables and the only observation available is the temporal image difference. The proposed model takes into account the residual resulting from the linearization of the brightness constancy constraint by Taylor series approximation, which is also assumed to be a spatially varying Student's t-distributed observation noise. To infer the model variables and parameters we recur to variational inference methodology leading to an expectation-maximization (EM) framework in a principled probabilistic framework where all of the model parameters are estimated automatically from the data.'' 567a0d38094c5a11b1e373576062c663bc310813 0 12 519 461 2014-10-03T13:01:24Z Mazet 3 /* Intership available for 2014: */ wikitext text/x-wiki == Intership available for 2015 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- |[[:File:master2015-fr.pdf|Décomposition conjointe de spectres dans des images astronomiques]]|| 6 months || master 2 || open |- |} == Intership available for 2014 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthIntership.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 4cd334b98bb765a3245f89ab50e49ab3290d6ac6 533 519 2014-12-10T14:29:29Z Baudrier 14 /* Intership available for 2015 */ wikitext text/x-wiki == Intership available for 2015 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- |[[:File:master2015-fr.pdf|Décomposition conjointe de spectres dans des images astronomiques]]|| 6 months || master 2 || open |- |[[:File:master2015-fr.pdf|Estimation of orientations and deformations from non-oriented tomographic projections]]|| 6 months || master 2 || open |- |} == Intership available for 2014 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthIntership.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 16e60cd53116e8f709fa6335676dd4ab4bc19d05 535 533 2014-12-10T14:33:21Z Baudrier 14 wikitext text/x-wiki == Intership available for 2015 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- |[[:File:master2015-fr.pdf|Décomposition conjointe de spectres dans des images astronomiques]]|| 6 months || master 2 || open |- |[[:File:SujetM2_Reduc_tomo_ENG.pdf|Estimation of orientations and deformations from non-oriented tomographic projections]]|| 6 months || master 2 || open |- |} == Intership available for 2014 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthIntership.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] ca049ffc814b5b1aa21291fd6c3482ca94022d4b 536 535 2014-12-10T14:34:56Z Baudrier 14 /* Intership available for 2015 */ wikitext text/x-wiki == Intership available for 2015 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- |[[:File:master2015-fr.pdf|Décomposition conjointe de spectres dans des images astronomiques]]|| 6 months || master 2 || open |- |[[:Media:SujetM2_Reduc_tomo_ENG.pdf|Estimation of orientations and deformations from non-oriented tomographic projections]]|| 6 months || master 2 || open |- |} == Intership available for 2014 == {| class="wikitable sortable" |- ! Subject!! Duration !! Degree !! Availability |- | [[:Media:MorphoMouse-6monthIntership.pdf|MR image processing of mouse brain ]] ||6 months || master 2 || open |- | [[:Media:master2014-sparse-fr.pdf|Sparse approximation methods for spectroscopic joint decomposition]] ||6 months || master 2 || open |- | [[:Media:2014_SujetStage_Imagerie_médical.pdf|Classification-recalage articulaire du squelette entre imagerie nucléaire fonctionnelle et en radiologie interventionelle]] ||6 months || master 2 || closed |- | Tomographic reconstruction from projections with unknown directions: 3D case ||6 months || master 2 || closed |- | [[:Media:SujetM2_R_tomo_Eng.pdf|Multiresolution behavior of estimators of lengths and surfaces in discrete 3D space]] ||6 months || master 2 || open |- |} [[fr:Stage]] 057d77f58480f20b2f4cdc51cb5b124fdd217a4c 8 2 527 399 2014-10-09T14:40:38Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** http://dsim.unistra.fr| ANR DSIM ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV ef4498e72e849ba348e4f344583f89d0cce9ce8d 540 527 2015-01-13T12:15:00Z Pimmel 43 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Statistical analysis and inverse problems|Statistical analysis and inverse problems ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** http://dsim.unistra.fr| ANR DSIM ** API ICube|API ICube ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 9284ea3e91b854effe008dd4af38d8821fd90c7a 0 81 528 2014-10-29T07:58:08Z Courbot 44 Created page with "<big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''C223a''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://icube-miv.unistra.fr/fr/index.php/Jean-Baptiste_Courbot'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == My main research works focus on the creation and application of Markovian Models for statistical segmentation. === Astronomical Imagery === I am currently a PhD student under the direction of [[Christophe Collet]] and the co-direction of Roland Bacon ([http://cral.univ-lyon1.fr/?lang=fr CRAL], Lyon). Im am also supervised by [[Vincent Mazet]] and [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini]. PhD topic: '''Detection very low SNR faint signal: application to the astronomical hyperspectral data of the MUSE spectro-imager.''' This work is part of the [http://muse.univ-lyon1.fr/ MUSE] project and is granted by the MUSICOS ERC, dedicated to the study of galaxy formation. The MUSE instrument is a second-generation VLT intrument and came into operation in october 2014 (see also [http://www.youtube.com/watch?v=e5TopF7DGMg this video] from R.Bacon). The main objective of this work is the detection and segmentation of very faint signals present in MUSE data cubes. The elements of interest are mainly Circum-Galactic Medium and Inter-Galactic Medium. === Medical imagery === [[File:Courbot L5 T1 seg.png|300px|thumbnail|right|Example of segmentation results for lumbar and thoracic vertebrae.]] My engineer internship was mainly dedicated to vertebral segmentation. I developped a novel segmentation method which is valid for al vertebrae type (namely lumbar, thoracic and cervical) and on the most frequent non-standard case one can expect in clinical context. This work was the topic of a [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_16/10/2014,_14h00 talk] (french) in october 2014. [[File:Courbot illu seg L3.gif|400px|thumbnail|center|Example of a segmentation result for a L3 vertabra. ]] I also developped a prototype of vertebral atlas, including vertebrae volumes and relative vertebrae positions and orientations. [[File:Courbot atlas vert L3.png|250px|center|thumbnail|Sectional and 3D visualisations of a mean volume from the vertebral atlas prototype. ]] === Natural Language Processing === I also worked on Part-Of-Speech Tagging, aiming at automatically find grammatical category for each word of a given text. The Hidden Markov Chain classification is very efficient in this framework, and I studied what do more complex Markov Chain models provide for this task. 74aad2e04b3e3285d48e85c735c6b8f681885e33 529 528 2014-10-29T07:59:14Z Courbot 44 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''C223a''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://icube-miv.unistra.fr/en/index.php/Jean-Baptiste_Courbot'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Research Activities == My main research works focus on the creation and application of Markovian Models for statistical segmentation. === Astronomical Imagery === I am currently a PhD student under the direction of [[Christophe Collet]] and the co-direction of Roland Bacon ([http://cral.univ-lyon1.fr/?lang=fr CRAL], Lyon). Im am also supervised by [[Vincent Mazet]] and [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini]. PhD topic: '''Detection very low SNR faint signal: application to the astronomical hyperspectral data of the MUSE spectro-imager.''' This work is part of the [http://muse.univ-lyon1.fr/ MUSE] project and is granted by the MUSICOS ERC, dedicated to the study of galaxy formation. The MUSE instrument is a second-generation VLT intrument and came into operation in october 2014 (see also [http://www.youtube.com/watch?v=e5TopF7DGMg this video] from R.Bacon). The main objective of this work is the detection and segmentation of very faint signals present in MUSE data cubes. The elements of interest are mainly Circum-Galactic Medium and Inter-Galactic Medium. === Medical imagery === [[File:Courbot L5 T1 seg.png|300px|thumbnail|right|Example of segmentation results for lumbar and thoracic vertebrae.]] My engineer internship was mainly dedicated to vertebral segmentation. I developped a novel segmentation method which is valid for al vertebrae type (namely lumbar, thoracic and cervical) and on the most frequent non-standard case one can expect in clinical context. This work was the topic of a [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_16/10/2014,_14h00 talk] (french) in october 2014. [[File:Courbot illu seg L3.gif|400px|thumbnail|center|Example of a segmentation result for a L3 vertabra. ]] I also developped a prototype of vertebral atlas, including vertebrae volumes and relative vertebrae positions and orientations. [[File:Courbot atlas vert L3.png|250px|center|thumbnail|Sectional and 3D visualisations of a mean volume from the vertebral atlas prototype. ]] === Natural Language Processing === I also worked on Part-Of-Speech Tagging, aiming at automatically find grammatical category for each word of a given text. The Hidden Markov Chain classification is very efficient in this framework, and I studied what do more complex Markov Chain models provide for this task. a2eeba0643558692e3a77b1e047b39faeefb8773 100 47 531 238 2014-11-03T15:13:10Z Tajine 11 wikitext text/x-wiki Head : [[Mohamed TAJINE]] This theme regroups activities on geometric, topological, algebraic and discrete models for imaging. Firstly in [http://geodisi.u-strasbg.fr/ Discrete Geometry], we study digital geometries and topologies, as well as discrete tomography. The mathematical tools we develop are suitable for image analysis and synthesis. The objectives are firstly to build a robust and powerful algorithmics in imaging, controlling treatment errors related to the use of real numbers, and secondly to develop tools to study different properties (differential, geometric and topological) of objects, both discrete and Euclidean. More generally, we study the transfer of properties between Euclidean spaces representing "reality" and the discrete spaces representing the computer. Next, in [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology], we study the construction of new operators for morphological processing image processing, as well as the extension of morphology to new types of objects. Work is also carried out on morphological image segmentation and the application of mathematical morphology to color or multispectral images. The preferred field of application is currently in medical imaging. ===== Members ===== * [[Etienne_Baudrier|BAUDRIER Etienne]] * DA COL-JACOB Marie-Andrée * [[ Alice Dufour|DUFOUR Alice]] * [[Loïc Mazo|MAZO Loïc]] * [[Benoît Naegel|NAEGEL Benoît]] * [[PHAN Minh Son|PHAN Son]] * [[Christian Ronse|RONSE Christian]] * [[Mohamed TAJINE|TAJINE Mohamed]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 9c65cfd8ada2d256f2176653c45437a08a717fc6 532 531 2014-11-03T15:34:56Z Tajine 11 wikitext text/x-wiki Head : [[Mohamed TAJINE]] This theme regroups activities on geometric, topological, algebraic and discrete models for imaging. Firstly in [http://geodisi.u-strasbg.fr/ Discrete Geometry], we study digital geometries and topologies, as well as discrete tomography. The mathematical tools we develop are suitable for image analysis and synthesis. The objectives are firstly to build a robust and powerful algorithmics in imaging, controlling treatment errors related to the use of real numbers, and secondly to develop tools to study different properties (differential, geometric and topological) of objects, both discrete and Euclidean. More generally, we study the transfer of properties between Euclidean spaces representing "reality" and the discrete spaces representing the computer. Next, in [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology], we study the construction of new operators for morphological processing image processing, as well as the extension of morphology to new types of objects. Work is also carried out on morphological image segmentation and the application of mathematical morphology to color or multispectral images. The preferred field of application is currently in medical imaging. ===== Members ===== * [[Etienne_Baudrier|BAUDRIER Etienne]] * DA COL-JACOB Marie-Andrée * [[Loïc Mazo|MAZO Loïc]] * [[Benoît Naegel|NAEGEL Benoît]] * [[PHAN Minh Son|PHAN Son]] * [[Christian Ronse|RONSE Christian]] * [[Mohamed TAJINE|TAJINE Mohamed]] ===== Collaborations ===== * [http://www.esiee.fr/~info/a2si/gdi.html Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://laic.u-clermont1.fr/ Laboratoire d'Algorithmique et Image de Clermont-Ferrand]. ===== More information ===== * concerning [http://geodisi.u-strasbg.fr/ Discrete Geometry]; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 60a6b37c554d2657a819c4a230a63befc77b211c 6 82 534 2014-12-10T14:32:33Z Baudrier 14 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 83 541 2015-01-14T16:48:10Z Noblet 4 Created page with "== Projet 2015 == {| class="wikitable sortable" |- ! Projet !! Porteur !! Equipe associée !! Axe transverse |- | OTOMAN : Méthode d'optimisation pour la reconstruction tomo..." wikitext text/x-wiki == Projet 2015 == {| class="wikitable sortable" |- ! Projet !! Porteur !! Equipe associée !! Axe transverse |- | OTOMAN : Méthode d'optimisation pour la reconstruction tomographique en cryo microscopie électronique ||Gabriel FREY || BFO - ICPS || Calcul scientifique et masses de données (CSMD) ; Imagerie et robotique médicales et chirurgicales (IRMC) |- | MOTO3D : Module Tomographique plénoptique pour la microscopie 3D || Jean DELLINGER || BFO - ICPS ||Imagerie physique et systèmes (IPS); Imagerie et robotique médicales et chirurgicales (IRMC) |- |} == Projet 2014 == {| class="wikitable sortable" |- ! Projet !! Porteur !! Equipe associée !! Axe transverse |- | FOURIRE : Reconnaissance d’objets humains dans des images satellitaires intégrant l’incertitude : une approche systémique combinant la segmentation statistique et les ontologies floues ||Stella MARC-ZWECKER || BFO || Calcul scientifique et masses de données (CSMD) |- | TRADICONT : transformation affines discrètes pour la représentation du continu ||Nicolas MAGAUD || IGG || Calcul scientifique et masses de données (CSMD) ; Imagerie et robotique médicales et chirurgicales (IRMC) |- | DEFCON : reconstruction haute résolution des déformations continues pour la biologie structurale ||Etienne BAUDRIER || BFO ||Calcul scientifique et masses de données (CSMD) |- | MorphoMouse : morphométrie cérébrale de la souris en IRM : application au phénotypage de modèles animaux ||Paulo LOUREIRO de SOUSA / Vincent NOBLET || IMIS || Imagerie et robotique médicales et chirurgicales (IRMC) |- | DAWSHI : Deep Analysis of Whole Slide Histopathological Images ||Benoît NAEGEL / Cedric WEMMERT || BFO || Calcul scientifique et masses de données (CSMD) |- | animaZRV : analyse d’images automatisée pour la caractérisation de la dispersion au sein de zones de rejet végétalisées utilisées en traitement tertiaire ||Julien LAURENT || MécaFlu - SMH ||Environnement et développement durable (EDD) ; Imagerie physique et systèmes (IPS) |- | MicroPol : Microscopie de Mueller : conception de l’instrument et traitement des données. Application à l’étude de cellules cancéreuses ||Sylvain FAISAN || TRIO - IPP ||Imagerie physique et systèmes (IPS) |- |} 9355092f108aeaf01426d05c14f131ed1db2e338 0 84 542 2015-01-16T10:12:04Z Mazet 3 Created page with "'''Positions for 2015''' * [[:Média:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]]" wikitext text/x-wiki '''Positions for 2015''' * [[:Média:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]] 80ef91a6f549600b419c407297ebcea7fc142965 6 85 543 2015-01-16T10:12:28Z Mazet 3 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 545 543 2015-01-16T10:18:06Z Mazet 3 Mazet uploaded a new version of &quot;[[File:These2015-en.pdf]]&quot; wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 13 544 452 2015-01-16T10:17:22Z Mazet 3 wikitext text/x-wiki '''Positions for 2015''' * [[:Média:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]] [[fr:Thèse]] f34adc95ef3d3594d20ce4bab844c5893f387cd1 546 544 2015-01-16T10:18:35Z Mazet 3 wikitext text/x-wiki '''Positions for 2015''' * [[:Media:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]] [[fr:Thèse]] f62f562be68f85e56b71941e7cd292a5d8140d37 552 546 2015-03-23T10:58:14Z Baudrier 14 wikitext text/x-wiki '''Positions for 2015''' * [[:Media:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]] * [[:Media:sujetTheseReducDim_2015_eng.pdf|Tomographic reconstruction of deformable objects for single particle electron microscopy]] [[fr:Thèse]] 177ce248e2f550533bb3247750545cff7387c918 0 18 550 403 2015-02-10T13:34:13Z Rousseau 10 wikitext text/x-wiki <big>'''CNRS Research Scientist'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 89<br /> Fax : + 33 (0) 3 68 85 44 97<br /> Office : '''C211''' <br /> Email : ''rousseau@unistra.fr''<br /> |} </td> <td align=right> [[File:Francois_Rousseau.jpeg|frameless|center|150px]] </td> </table> <big>'''Since February 2015, I'm [http://perso.telecom-bretagne.eu/francoisrousseau Professor at Telecom Bretagne] '''</big> == Research Activities == * Fetal Brain MR Image Reconstruction * Image Segmentation * Diffusion MRI Processing * Spatio-Temporal Analysis * Atlas Building * Software : BTK (baby brain toolkit), developed with A. Bentaieb, L. Boubchir, B. Caldairou, F. Champ, E. Oubel, J. Pontabry, M. Schweitzer. ([http://rousseau.github.io/fbrain github webpage], [https://github.com/rousseau/fbrain github repository], [http://www.nitrc.org/projects/btk nitrc webpage], [http://youtu.be/I7_4L1psn44 youtube]). * Project : [http://icube-miv.unistra.fr/en/index.php/ERC_FBrain ERC FBRAIN] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=rousseau&title=&labo=4&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0 </anyweb> 20e360c4d6fed3f9030951e897f4dcb528f527b8 6 86 551 2015-03-23T10:57:50Z Baudrier 14 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 31 553 214 2015-04-17T13:07:47Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:photoid22.jpeg|frameless|center|upright=1.9]] </td> </table> == Description of Activities == === Decomposition of a signal sequence === <table width=100%> <tr> <td> We address the problem of decomposing a sequence of spectroscopic signals. Data are a series of signals modeled as a noisy sum of parametric peaks. We aim to estimate the peak parameters given that they change slowly between two contiguous signals. The key idea is to decompose the whole sequence rather than each signal independently. The problem is set within a Bayesian framework. The peaks with similar evolution are gathered into groups and a Markovian prior on the peak parameters of a same group is used to favor a smooth evolution of the peaks. In addition, the peak number and the group number are unknown and have to be estimated (the number of peaks in two contiguous signals change if peaks vanish). Therefore, the posterior distribution is sampled with a reversible jump Markov chain Monte Carlo algorithm. * V. Mazet, S. Faisan, S. Awali, M. Gaveau, L. Poisson, Unsupervised Joint Decomposition of a Spectroscopic Signal Sequence, Signal Processing, Elsevier, pp. 193--205, Vol. 109, [http://dx.doi.org/10.1016/j.sigpro.2014.10.032 doi:10.1016/j.sigpro.2014.10.032], April 2015. The two first authors contributed equally to this work. </td> <td align=right> [[File:Animated.gif|frameless|thumb|upright=2.9]] </td> </table> === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (right) and by using the pseudo-inverse (left) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:nlm.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in: * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=faisan&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 14053a9529ce471aa878301b542c6800ca67e106 6 87 554 2015-04-26T11:09:00Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 555 539 2015-04-26T11:11:31Z Ahmad 38 /* Curriculume Vitae */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> Surface topography is, generally, composed of many length scales starting from its physical geometry, to its microscopic or atomic scales known by roughness. The spatial and geometrical evolution of the roughness topography of engineering surfaces avail comprehensive understanding, and interpretation of many physical and engineering problems such as friction, and wear mechanisms during the mechanical contact between adjoined surfaces. Obviously, the topography of rough surfaces is of random nature. It is composed of irregular hills/valleys being spatially correlated. The relation between their densities and their geometric properties are the fundamental topics that have been developed, in this research study, using the theory of random fields and the integral geometry.An appropriate random field model of a rough surface has been defined by the most significant parameters, whose changes influence the geometry of its excursion. The excursion sets were quantified by functions known as intrinsic volumes. These functions have many physical interpretations, in practice. It is possible by deriving their analytical formula to estimate the parameters of the random field model being applied on the surface, and for statistical analysis investigation of its excursion sets. These subjects have been essentially considered in this thesis. Firstly, the intrinsic volumes of the excursion sets of a class of mixture models defined by the linear combination of Gaussian and t random fields, then for the skew-t random fields are derived analytically. They have been compared and tested on surfaces generated by simulations. In the second stage, these random fields have been applied to real surfaces measured from the UHMWPE component, involved in application of total hip implant, before and after wear simulation process. The primary results showed that the skew-t random field is more adequate, and flexible for modelling the topographic roughness. Following these arguments, a statistical analysis approach, based on the skew-t random field, is then proposed. It aims at estimating, hierarchically, the significant levels including the real hills/valleys among the uncertain measurements. The evolution of the mean area of the hills/valleys and their levels enabled describing the functional behaviour of the UHMWPE surface over wear time, and indicating the predominant wear mechanisms.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 2621da1de4874236348ddf7751ab041ec8a2f620 597 555 2015-10-22T16:26:59Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 d601686b0923eb34f54d106feec9459b9b35e81d 0 51 556 244 2015-05-18T16:13:33Z Noblet 4 /* Publications (see also: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) */ wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust estimation == == Deformable models == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications (see also: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=Pierre+Charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 58a6f7f1329f3ab0e4a5c2e6a534284d87334e59 579 556 2015-08-13T11:45:49Z Charbonnier 37 /* Publications (see also: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) */ wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization == == Robust estimation == == Deformable models == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications (complete list available at: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=Pierre+Charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> db4881135438f769d12a2b78ad7d7a059805b585 580 579 2015-08-13T11:46:20Z Charbonnier 37 /* Half-quadratic regularization */ wikitext text/x-wiki <big>'''External collaborator'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | LRS - ERA 27 LCPC<br /> 11 rue Jean Mentelin<br /> BP 9<br /> 67035 Strasbourg - France <br /><br /> Tel: + 33 (0) 3 88.77.46.44<br /> Fax: + 33 (0) 3 88.77.46.40<br /> Desk : '''A23''' <br /> Email: ''' Pierre (dot) Charbonnier (at) developpement-durable (dot) gouv (dot) fr, '''<br /> or: ''' p (dot) charbonnier (at) unistra (dot) fr '''<br /> |} </td> <td align=right> [[File:photoCharbonnier.jpeg|frameless|center]] </td> </table> == Half-quadratic regularization [https://hal.archives-ouvertes.fr/tel-01183977] == == Robust estimation == == Deformable models == == Shape constraints for active contours == [[File:image_115.gif|400px]] == Publications (complete list available at: [http://scholar.google.fr/citations?user=vh6dN20AAAAJ&hl=fr&oi=ao]) == <anyweb> http://icube-intranet.unistra.fr/papr/appli.php?author=Pierre+Charbonnier&title=&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> a2a4c857dcc6868950d531b8da2d928e0e0220d4 0 17 557 451 2015-07-08T12:32:30Z Naegel 6 /* Description des activités */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br />Tel : + 33 (0) 3 68 85 48 56 <br /> Bureau : '''C230''' <br /> Courriel : '''b.naegel@unistra.fr'''<br /> [http://scholar.google.com/citations?user=yH72muEAAAAJ Google Scholar] [http://www.informatik.uni-trier.de/~ley/pers/hd/n/Naegel:Beno=icirc=t.html DBLP] <br/> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == <big>GitHub repositories :</big> *LibTIM : image processing library in C++ under GPL License **Download LibTIM *component-graph : construction of the component-graph and image filtering, by extension of the component-tree concept to multivaluate images **Download component-graph Responsabilités pédagogiques : Co-directeur des études du département Informatique, IUT Robert Schuman Co-responsable de la Licence Professionnelle SIL CDED, IUT Robert Schuman Enseignements : Traitement d'images : DUT Informatique, Master 2 ISI, Master 2 IRIV Développement mobile Android : DUT Informatique, LP CDED == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ecfd5f77278ccc8735d0024e6658b4b7f0fb0184 558 557 2015-07-08T12:36:21Z Naegel 6 /* Description des activités */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br />Tel : + 33 (0) 3 68 85 48 56 <br /> Bureau : '''C230''' <br /> Courriel : '''b.naegel@unistra.fr'''<br /> [http://scholar.google.com/citations?user=yH72muEAAAAJ Google Scholar] [http://www.informatik.uni-trier.de/~ley/pers/hd/n/Naegel:Beno=icirc=t.html DBLP] <br/> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == <big>Research activities :</big> *Mathematical morphology **Hierarchical approaches (component-tree, component-graph, ...) *Medical image analysis <big>GitHub repositories :</big> *LibTIM : image processing library in C++ under GPL License **[https://github.com/bnaegel/libtim Download LibTIM] *component-graph : construction of the component-graph and image filtering, by extension of the component-tree concept to multivaluate images **[https://github.com/bnaegel/component-graph Download component-graph] <big>Teaching</big> *Image processing : DUT in Computer Science, Master 2 ISI, Master 2 IRIV *Mobile development in Android : DUT in Computer Science, LP CDED (Bachelor level) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 8ce7232583a8aa2988706f6e86c3deafecef2dd6 100 56 559 548 2015-07-16T08:27:38Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. c11f207398c925fe2f3f9d608a579cb0f0221ed1 590 559 2015-09-15T14:48:32Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] [[Vincent Noblet|NOBLET Vincent]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. cd07bdd1706ea1a792c58899fd391525b0c2c260 591 590 2015-09-15T14:50:01Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|NOBLET Vincent]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. d541f3e3c515b962f09def4327ea51dfd967099d 592 591 2015-09-15T14:50:13Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|Vincent Noblet]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, L. Mazo, B. Naegel, V. Noblet, Ch. Ronse, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, F. Lavigne, M. Ohana, S. M. Phan, E. Rust, F. Savary, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. a545528d62925c3f065f742f04345492ad91ee25 598 592 2015-10-23T12:49:14Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|Vincent Noblet]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, B. Naegel, V. Noblet, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, M. Ohana, S. M. Phan, E. Rust, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. d14c46c147449807e1ab99bb1f6c4b4030011834 599 598 2015-10-23T12:50:39Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|Vincent Noblet]] ''Investigators:'' E. Baudrier, Ch. Collet, Ch. Heinrich, F. Heitz, S. Kremer, B. Naegel, V. Noblet, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, M. Ohana, S. M. Phan, E. Rust, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 57c39888d8eacc4e070c5eb2c7d192a663e8d913 0 4 560 549 2015-07-16T08:30:19Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [[Fatma Abdmouleh|ABDMOULEH Fatma]]|| PhD student || C225 || +33 (0)3.68.85.44.99 ||abdmouleh@unistra.fr |- | [[Etienne Baudrier|BAUDRIER Etienne]] || Associate professor || || || |- | BOUCHON Alix || PhD student || || || |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | COLLET Christophe || Professor || || || |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || C223a || + 33 (0)3 68 85 44 84 || jb(dot)courbot(at)unistra.fr |- | DA COL-JACOB Marie-andrée || Associate professor || || || |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | HANNACHI Ammar || PhD student || || || |- | HEINRICH Christian || Professor || || || |- | HEITZ Fabrice || Professor || || || |- | HIRSCH Ernest|| Professor || || || |- | HUBELE Fabrice || MCUPH Doctorant || CHU || +33 (0)3 88 12 75 47 || |- | [[Stephane_Kremer|KREMER Stéphane]] || MCU-PH || CHU || || stephane(dot)kreme(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[François Lavigne|LAVIGNE François]] || PhD student || B252 || +33 3 68 85 44 13 || f.lavigne@unistra.fr |- | LOUYS Mireille || Associate professor || || || |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || +33 3 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Assistant professor || C217 || +33 3 68 85 44 96 || loic.mazo@unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || || || |- | NGO Tran Thanh || PhD student || || || |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | PHAN Minh Son || PhD student || || || |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-Doctorant || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Florent Savary|SAVARY Florent]] || PhD student || B252 || +33 3 68 85 44 13 || florent.savary@unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || Doctorant || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed TAJINE|TAJINE Mohamed]] || Professor || || || |- | THORAVAL Laurent || Associate professor || || || |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0) 388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * APTOULA Erchan * [[ Ola Ahmad|AHMAD Ola ]] * BELGHITH Akram * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha] : PhD student, Simon fraser University, Vancouver. * BOISGONTIER Hervé * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * BRICQ Stéphanie * BRUCHER Matthieu * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doct, McGill university, Montreal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at IRCAD, Strasbourg. * CHARNOZ Arnaud * DAURAT Alain * DRAMAN Cemal * DUFOUR Alice * GENDRIN Christelle * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007) : research scientist at Applied Research Laboratories, The University of Texas at Austin * KARKAR Slim * KHEMMAR Redouane * KHOSHNOUDIRAD Daniel * LE CAM Steven (09/2007-08/2010) : associate Professor at Université de Lorraine * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * [[François Rousseau|ROUSSEAU François]] : professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] e9bc704377e28525b3f57079d31023d6c4fd4e15 601 560 2015-10-30T16:07:24Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-PhD student || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : MCF, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Formateur en Informatique à l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : MdC Université Paris 13. * BRICQ Stéphanie (MdC Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Ingénieur R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, MdC en informatique, †2010. * DRAMAN Cemal : Ingénieur de Recherches, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Chercheur chez BHP Billiton R&D, Perth, Australie) * FOULONNEAU Alban : MdC, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : Ingénieur de recherche, Université de Vienne, Autriche. * GRAEBLING Pierre, UdS, Professeur, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]], Doctorant * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban : ingénieur à RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : ingénieur chez [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professeur à l'Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : enseignant-chercheur à l'ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : Ingénieur de recherche à l'IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]] : professeur à [http://perso.telecom-bretagne.eu/francoisrousseau Télécom Bretagne] * ROUX Romain * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel] : MdC, Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : Ingénieur à l'IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Chercheur, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi * [http://www-irisa.univ-ubs.fr/Sebastien.Lefevre/ LEFEVRE Sébastien] : professor at Université de Bretagne Sud * Meffre Alban : Engineer at RSI Video Technologies * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao] : senior scientist at [http://www.mediantechnologies.com Median Technologies] * PASSAT Nicolas * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011) : associate professor at ESIEE Paris * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien] : research engineer at IGBMC, Illkirch * PETREMAND Matthieu * RENARD Felix * [[François Rousseau|ROUSSEAU François]] : professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc] : engineer at IRCAD, Strasbourg * SFIKAS Giorgos * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * ZOUAOUI Mahdi [[fr:Membres]] 01b150d2835a216ea6ffde285ea937dc39f01c36 602 601 2015-10-30T16:10:28Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-PhD student || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : MCF, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Formateur en Informatique à l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : MdC Université Paris 13. * BRICQ Stéphanie (MdC Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Ingénieur R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, MdC en informatique, †2010. * DRAMAN Cemal : Ingénieur de Recherches, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Chercheur chez BHP Billiton R&D, Perth, Australie) * FOULONNEAU Alban : MdC, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : Ingénieur de recherche, Université de Vienne, Autriche. * GRAEBLING Pierre, UdS, Professeur, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]], Doctorant * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professeur à l'Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel] : MdC, Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Chercheur, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] e6524e6f120f8fb3c4127688ae06d9be0b5bda2b 6 88 561 2015-07-16T10:45:35Z Baudrier 14 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 13 562 552 2015-07-16T10:46:08Z Baudrier 14 wikitext text/x-wiki '''Positions for 2015''' * [[:Media:these2015-en.pdf|Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images]] * [[:Media:SujetTheseReducDim 2015 V2 eng.pdf|Tomographic reconstruction of deformable objects for single particle electron microscopy]] [[fr:Thèse]] 7dee183b06f1dfcd97688e2ed8e94804b7e8c0c2 0 81 563 529 2015-07-23T11:59:25Z Courbot 44 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''C223a''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://icube-miv.unistra.fr/en/index.php/Jean-Baptiste_Courbot'''<br /> |} </td> <td align=right> [[File:profil_jbc.png|frameless|center]] </td> </table> == Research Activities == My main research works focus on the creation and application of statistical methods for detection and segmentation. === Astronomical Imagery === I am currently a PhD student under the direction of [[Christophe Collet]] and the co-direction of Roland Bacon ([http://cral.univ-lyon1.fr/?lang=fr CRAL], Lyon). I am also supervised by [[Vincent Mazet]] and [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini]. PhD topic: '''Detection very low SNR faint signal: application to the astronomical hyperspectral data of the MUSE spectro-imager.''' This work is part of the [http://muse.univ-lyon1.fr/ MUSE] project and is granted by the MUSICOS ERC, dedicated to the study of galaxy formation. The MUSE instrument is a second-generation VLT instrument and came into operation in October 2014 (see also [http://www.youtube.com/watch?v=e5TopF7DGMg this video] from R.Bacon). The main objective of this work is the detection and segmentation of very faint signals present in MUSE data cubes. The elements of interest are mainly Circum-Galactic Medium and Inter-Galactic Medium, which could yet not be directly observed. They will allow a better understanding of galaxy formation and environment. [[File:Hdfs top s.png|750px|thumbnail|center|First Circum Galactic Medium detection results (contoured) around Lyman-alpha emitter galaxies (represented as stars) within a MUSE datacube (white image in background). Contour colors represents galaxies redshift.]] === Medical imagery === [[File:Courbot L5 T1 seg.png|300px|thumbnail|right|Example of segmentation results for lumbar and thoracic vertebrae.]] My engineer internship was mainly dedicated to vertebral segmentation. I developed a novel segmentation method which is valid for al vertebrae type (namely lumbar, thoracic and cervical) and on the most frequent non-standard case one can expect in clinical context. This work was the topic of a [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_16/10/2014,_14h00 talk] (French) in October 2014. [[File:Courbot illu seg L3.gif|400px|thumbnail|center|Example of a segmentation result for a L3 vertebra. ]] A vertebrae atlas was also developed, including vertebrae volumes and relative vertebrae positions and orientations. [[File:Courbot atlas vert L3.png|250px|center|thumbnail|Sectional and 3D visualizations of a mean volume from the vertebral atlas prototype. ]] === Natural Language Processing === I also worked on Part-Of-Speech Tagging, aiming at automatically find grammatical category for each word of a given text. The Hidden Markov Chain classification is very efficient in this framework, and I studied what do more complex Markov Chain models provide for this task. 22b5002c10d292ff975ee9e1a805b7d8092f556d 564 563 2015-07-23T12:01:06Z Courbot 44 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''B224''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://icube-miv.unistra.fr/en/index.php/Jean-Baptiste_Courbot'''<br /> |} </td> <td align=right> [[File:profil_jbc.png|frameless|center]] </td> </table> == Research Activities == My main research works focus on the creation and application of statistical methods for detection and segmentation. === Astronomical Imagery === I am currently a PhD student under the direction of [[Christophe Collet]] and the co-direction of Roland Bacon ([http://cral.univ-lyon1.fr/?lang=fr CRAL], Lyon). I am also supervised by [[Vincent Mazet]] and [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini]. PhD topic: '''Detection very low SNR faint signal: application to the astronomical hyperspectral data of the MUSE spectro-imager.''' This work is part of the [http://muse.univ-lyon1.fr/ MUSE] project and is granted by the MUSICOS ERC, dedicated to the study of galaxy formation. The MUSE instrument is a second-generation VLT instrument and came into operation in October 2014 (see also [http://www.youtube.com/watch?v=e5TopF7DGMg this video] from R.Bacon). The main objective of this work is the detection and segmentation of very faint signals present in MUSE data cubes. The elements of interest are mainly Circum-Galactic Medium and Inter-Galactic Medium, which could yet not be directly observed. They will allow a better understanding of galaxy formation and environment. [[File:Hdfs top s.png|750px|thumbnail|center|First Circum Galactic Medium detection results (contoured) around Lyman-alpha emitter galaxies (represented as stars) within a MUSE datacube (white image in background). Contour colors represents galaxies redshift.]] === Medical imagery === [[File:Courbot L5 T1 seg.png|300px|thumbnail|right|Example of segmentation results for lumbar and thoracic vertebrae.]] My engineer internship was mainly dedicated to vertebral segmentation. I developed a novel segmentation method which is valid for al vertebrae type (namely lumbar, thoracic and cervical) and on the most frequent non-standard case one can expect in clinical context. This work was the topic of a [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_16/10/2014,_14h00 talk] (French) in October 2014. [[File:Courbot illu seg L3.gif|400px|thumbnail|center|Example of a segmentation result for a L3 vertebra. ]] A vertebrae atlas was also developed, including vertebrae volumes and relative vertebrae positions and orientations. [[File:Courbot atlas vert L3.png|250px|center|thumbnail|Sectional and 3D visualizations of a mean volume from the vertebral atlas prototype. ]] === Natural Language Processing === I also worked on Part-Of-Speech Tagging, aiming at automatically find grammatical category for each word of a given text. The Hidden Markov Chain classification is very efficient in this framework, and I studied what do more complex Markov Chain models provide for this task. 51a856a50aea29ce5c049574aeb258b5c5b79ade 0 6 565 397 2015-08-12T12:43:20Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description des activités == Mes activités de recherche dans l'équipe MIV concernent le [[Traitement d'images biomédicales]] et recouvrent principalement deux thématiques : * le recalage d'images * la détection de changements dans des séquences d'images Par ailleurs, dans le cadre de mes activités au sein de la [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], j'apporte mon expertise pour l’investigation de différentes problématiques en neurosciences requérant la mise en place de chaînes de traitement d’images adaptées et l’exploitation de bases de données d’images. == Parcours == {| |- | Depuis 2005 || : Ingénieur de recherche CNRS, ICube |- | juin 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation à diriger des recherches] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf Doctorat] (allocataire-moniteur), LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : D.E.A. Mécanique et Ingénierie, option Biomécanique, ULP, Strasbourg |- | 1999 - 2002 || : Ingénieur ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Enseignements == * TD Traitement du signal (1A/2A) à l'école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * Cours "[[Dispositifs d'imagerie médicale]]" dans le [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Université de Strasbourg) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 5df38f29acf800c85cb68e9b066c5fd5dde04019 566 565 2015-08-12T12:47:00Z Noblet 4 /* Description des activités */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team concern the [[Traitement d'images biomédicales]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the set up of appropriate image processing pipelines and the exploitation of large image databases. == Parcours == {| |- | Depuis 2005 || : Ingénieur de recherche CNRS, ICube |- | juin 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation à diriger des recherches] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf Doctorat] (allocataire-moniteur), LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : D.E.A. Mécanique et Ingénierie, option Biomécanique, ULP, Strasbourg |- | 1999 - 2002 || : Ingénieur ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Enseignements == * TD Traitement du signal (1A/2A) à l'école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * Cours "[[Dispositifs d'imagerie médicale]]" dans le [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Université de Strasbourg) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> b3ad54408792ebf0c5a237a828cbc5b070c7a32d 567 566 2015-08-12T12:48:47Z Noblet 4 /* Description of activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team is within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Parcours == {| |- | Depuis 2005 || : Ingénieur de recherche CNRS, ICube |- | juin 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation à diriger des recherches] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf Doctorat] (allocataire-moniteur), LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : D.E.A. Mécanique et Ingénierie, option Biomécanique, ULP, Strasbourg |- | 1999 - 2002 || : Ingénieur ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Enseignements == * TD Traitement du signal (1A/2A) à l'école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * Cours "[[Dispositifs d'imagerie médicale]]" dans le [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Université de Strasbourg) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 85917622283f2f8d0b0da356808d192387a929ff 568 567 2015-08-12T12:50:00Z Noblet 4 /* Description of activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Parcours == {| |- | Depuis 2005 || : Ingénieur de recherche CNRS, ICube |- | juin 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation à diriger des recherches] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf Doctorat] (allocataire-moniteur), LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : D.E.A. Mécanique et Ingénierie, option Biomécanique, ULP, Strasbourg |- | 1999 - 2002 || : Ingénieur ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Enseignements == * TD Traitement du signal (1A/2A) à l'école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * Cours "[[Dispositifs d'imagerie médicale]]" dans le [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Université de Strasbourg) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 11a4c9568927e38075a1a083ba3295cf61c760d7 569 568 2015-08-12T12:55:53Z Noblet 4 /* Parcours */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Enseignements == * TD Traitement du signal (1A/2A) à l'école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * Cours "[[Dispositifs d'imagerie médicale]]" dans le [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Université de Strasbourg) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> == Description of Activities == My research activities are in the field of medical image processing and are mainly focused on two topics: * image registration * change detection in image sequences Supervised thesis: * "Statistical change detection in longitudinal diffusion weighted MRI sequences. Application to neurodegenerative diseases", [[Alix Bouchon]] (2012 - ), co-supervised with [[Fabrice Heitz]] * "Statistical approches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic change detection in diffusion MRI. Application to multiple sclerosis", [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), co-supervised with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. Teaching : * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=6&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> ac86963ae14b667bc453cbd47115d0c50545e5be 570 569 2015-08-12T12:57:11Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == Encadrements == Thèses en cours : * "Imagerie quantitative de la ventilation par tomodensitométrie double-énergie", Thèse d'[[Mickael Ohana]] (2013- ), Co-encadrement avec [[Fabrice Heitz]] et Catherie Roy * "Détection statistique de changements longitudinaux en imagerie IRM anatomique et de diffusion. Application aux pathologies dégénératives du système nerveux central", Thèse d'[[Alix Bouchon]] (2012- ), Co-encadrement avec [[Fabrice Heitz]] Thèses soutenues : * "Détection de changements en IRM de diffusion. Application à la détection précoce de l'évolution des tumeurs cérébrales et des lésions de sclérose en plaques", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> f0f7e8a75c4ac2e4f3597dc8234bea5a29825786 571 570 2015-08-12T13:04:15Z Noblet 4 /* Encadrements */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Change detection in diffusion MRI. Application to the early detection of changes in brain tumors and multiple sclerosis lesions", Thèse d'[http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction et suivi de fibres en imagerie par résonance magnétique du tenseur de diffusion. Application à l’étude longitudinale en sclérose en plaques", Thèse de [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-encadrement avec [[Fabrice Heitz]] et [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. "Change detection in diffusion MRI. Application to the early detection of changes in brain tumors and multiple sclerosis lesions," Antoine Grigis Thesis (2009-2012), Co-supervision with Fabrice and Jean Heitz Paul Armspach. "Reconstruction and monitoring fiber MRI diffusion tensor. Application to the longitudinal study in multiple sclerosis," Thesis Boisgontier Hervé (2006-2010), Co-supervision with Fabrice Heitz and Jean-Paul Armspach. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> ab466d67a458f40fb34097940ed955b26961d5ae 572 571 2015-08-12T13:08:42Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Change detection in diffusion MRI. Application to the early detection of changes in brain tumors and multiple sclerosis lesions", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Reconstruction and monitoring fiber MRI diffusion tensor. Application to the longitudinal study in multiple sclerosis,", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> f6747690d61f6c76c3ddc41c6b5daa6f5a51a096 573 572 2015-08-12T13:10:16Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Change detection in diffusion MRI. Application to the early detection of changes in brain tumors and multiple sclerosis lesions", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis,", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 6db4d087d07a8cb2579268f39a4900bcc79d3f88 574 573 2015-08-12T13:11:58Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis,", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 0fbab73279f22296e26ae10fbfdb713e285ef1fc 575 574 2015-08-12T13:14:41Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis,", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> e87e13a48d53e66734d3b8a32c7aa8b5a80964e2 576 575 2015-08-12T13:15:50Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [[Mickael Ohana]] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [[Alix Bouchon]] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> 8e095e59a0215d9af97d2c59d7429146160fe529 577 576 2015-08-12T13:17:07Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == <anyweb> http://icube-publis.unistra.fr/?author=noblet&title=&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0 </anyweb> b9151e5f4a4884fd1d92384c8c69f423ddb98935 578 577 2015-08-12T13:33:31Z Noblet 4 /* Publications */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 03e65271c757ff3559322788d9462f4899804bbf 593 578 2015-09-23T11:06:31Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 527369025f8e5ecf67ebf842ac051e2551109c2e 0 89 581 2015-09-14T15:21:39Z Noblet 4 Created page with "== Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectiv..." wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [[:Fichier:Intro-online.pdf|Introduction]] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [[:Fichier:ScannerX.pdf|X-ray imaging]] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [[:Fichier:Echographie.pdf|Ultrasound]] - Reading materials: ([[:Fichier:Rousseau_Echo.pdf|pdf]]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [[:Fichier:MEG-EEG.pdf|MEG-EEG]] e325f10241b2839c324d0aae6216dafa711d144d 582 581 2015-09-14T15:22:48Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [[http://icube-miv.unistra.fr/fr/index.php/Intro-online.pdf|Introduction]] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [[:Fichier:ScannerX.pdf|X-ray imaging]] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [[:Fichier:Echographie.pdf|Ultrasound]] - Reading materials: ([[:Fichier:Rousseau_Echo.pdf|pdf]]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [[:Fichier:MEG-EEG.pdf|MEG-EEG]] c311c0e616aa3b4fe298ed70dac77b973eab4221 583 582 2015-09-14T15:23:40Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Intro-online.pdf|Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [[:Fichier:ScannerX.pdf|X-ray imaging]] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [[:Fichier:Echographie.pdf|Ultrasound]] - Reading materials: ([[:Fichier:Rousseau_Echo.pdf|pdf]]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [[:Fichier:MEG-EEG.pdf|MEG-EEG]] 707bd0d028f9ba109c4094fe2bde3a85a9148d21 584 583 2015-09-14T15:24:31Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [[:Fichier:ScannerX.pdf|X-ray imaging]] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [[:Fichier:Echographie.pdf|Ultrasound]] - Reading materials: ([[:Fichier:Rousseau_Echo.pdf|pdf]]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [[:Fichier:MEG-EEG.pdf|MEG-EEG]] 5630a02a433c0b151199f2b84eb6656016dd8e9f 585 584 2015-09-14T15:24:57Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [[:Fichier:ScannerX.pdf|X-ray imaging]] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [[:Fichier:Echographie.pdf|Ultrasound]] - Reading materials: ([[:Fichier:Rousseau_Echo.pdf|pdf]]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [[:Fichier:MEG-EEG.pdf|MEG-EEG]] 23f97534a2c9964326e8a1ab91b23b8655420eff 586 585 2015-09-14T15:25:59Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Echographie.pdf|Ultrasound] - Reading materials: ([http://icube-miv.unistra.fr/fr/index.php/Fichier:Rousseau_Echo.pdf|pdf]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:MEG-EEG.pdf MEG-EEG] 437dfd84d3d76af9ba4568784d276f8c0dc96611 587 586 2015-09-14T15:26:18Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Echographie.pdf Ultrasound] - Reading materials: ([http://icube-miv.unistra.fr/fr/index.php/Fichier:Rousseau_Echo.pdf pdf]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:MEG-EEG.pdf MEG-EEG] 3acde7e99f284b295ba6c3658c6170b96dc6aad7 588 587 2015-09-14T15:26:40Z Noblet 4 /* Downloadable courses Presentations */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge of physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Echographie.pdf Ultrasound] - Reading materials: ([http://icube-miv.unistra.fr/fr/index.php/Fichier:Rousseau_Echo.pdf pdf]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Media:MEG-EEG.pdf MEG-EEG] cb15a8ccadb465455658f98eb38756d509251424 589 588 2015-09-14T15:49:57Z Noblet 4 /* Prerequisite */ wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge in physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Echographie.pdf Ultrasound] - Reading materials: ([http://icube-miv.unistra.fr/fr/index.php/Fichier:Rousseau_Echo.pdf pdf]). * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Media:MEG-EEG.pdf MEG-EEG] 0feb481025bed6398229a75c2ae6fb6b6eeeeaa7 595 589 2015-10-12T20:18:02Z Noblet 4 wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge in physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * Ultrasound * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Media:MEG-EEG.pdf MEG-EEG] 728034366ce81dbf9462cfde3103866852a9611a 596 595 2015-10-20T19:09:38Z Noblet 4 wikitext text/x-wiki == Teachers == * [[Etienne Baudrier]] * [[Vincent Noblet]] == Prerequisite == * Basic knowledge in physics. * Fundamental tools in signal and image processing. == Objectives of the lecture == To describe various medical imaging modalities by presenting: * their physical principles * the acquisition devices * the image formation and the corresponding reconstruction techniques * the specific image processing problems Detailed program: * Introduction to different imaging modalities (history, classification, ...) * X and X-ray Scanner * Nuclear Imaging: PET and SPECT * Ultrasound * Nuclear Magnetic Resonance Imaging * Optical Tomography == Acquired Skills == Knowledge of the main medical imaging techniques and associated issues. == Downloadable courses Presentations == * [http://icube-miv.unistra.fr/fr/index.php/Fichier:Intro-online.pdf Introduction] - Reading materials : ([http://www.hcsp.fr/explore.cgi/ad420710.pdf pdf]). * [http://icube-miv.unistra.fr/fr/index.php/Fichier:ScannerX.pdf X-ray imaging] * Nuclear imaging ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_medecine_nucleaire.pdf pdf]) * MRI ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_IRM.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/Animation_IRM.zip Animations]) * Ultrasound ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_echographie.ppt ppt]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/cours_echographie.pdf pdf]) * Optical Tomography ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt.pdf dia]) ([http://lsiit-miv.u-strasbg.fr/contenu/fichiers_page/acces_restreint/CM_TomoOpt_supportPapier.pdf poly]) * [http://icube-miv.unistra.fr/fr/index.php/Media:MEG-EEG.pdf MEG-EEG] 4d49898f6c7e4087a263a4d7d721900d0bf5644d 0 90 594 2015-10-01T07:44:18Z Mazet 3 Created page with "<big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<b..." wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> === PhD Subject === == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] de86ed27336baef2efaffdd96501e3ccbfb01f20 0 37 600 353 2015-10-26T08:38:22Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, statistics, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Stéphane Kremer (ICube and Hôpitaux Universitaires de Strasbourg), and Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for biological image analysis. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingéniérie pour le Vivant''). : Responsable de l'option ''Acquisition et Traitement d'Images'' (ATI) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Image et Vision'' (IV), master 2 IRIV. : Co-responsable (avec Jihad Zallat, ICube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire ICube. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 82160a8ef881d09c0ccd14117d6071ed0964d10c 0 4 603 602 2015-10-30T16:13:54Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Edmond Rust|RUST Edmond]] || MCUPH-PhD student || CHR Haguenau || - || edmond.rust @ etu.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] d4ab55eb1c349be53042576932e47c8a16c083f1 607 603 2015-12-09T13:09:16Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[GKAMAS Theodosios|GKAMAS Theodosios]] || PhD student || C227a || || tgkamas(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 81f60381723b745d41491dcd4c10a89070eaff16 608 607 2015-12-09T13:09:52Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 5ea04fce493cf78e97c74e922117c20f899c449d 609 608 2015-12-09T13:10:49Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 85431ff57511ee70914017644e737d68b9ab0967 631 609 2016-02-08T14:01:57Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 49b55dd9fd47c31f285efd2743174af2fd502d03 100 56 604 599 2015-10-30T16:14:53Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|Vincent Noblet]] ''Investigators:'' E. Baudrier, Ch. Collet, S. Faisan, Ch. Heinrich, F. Heitz, S. Kremer, B. Naegel, V. Noblet, M. Tajine, L. Thoraval ''Ph. D. students:'' G. Apou, A. Bouchon, M. Boutillon, Th. Gkamas, F. Hubele, M. Ohana, S. M. Phan, E. Rust, M. Sourty, L. Soustelle ''Post doc:'' P.H. Conze Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 71c7c7063cd47eca5dbb0ab0ff35ff352db5af47 0 6 605 593 2015-11-16T14:21:49Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures abour "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" int the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 768dedee66048c4c243775121ea9bc6df9688950 606 605 2015-11-16T14:22:06Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures about "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" int the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 739f22771f71dffe2716285f65d9b6b71bc06e80 623 606 2016-01-12T08:36:02Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of Céline Heimburger (2015-), Co-direction with Izzie Jacques Namer * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures about "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" int the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 29192363bf57699de12f1eb40ff31779c678f2da 630 623 2016-01-25T11:36:39Z Noblet 4 /* Teaching */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [https://piiv.u-strasbg.fr/presentation/accueil/ plate-forme d'imagerie in vivo], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of Céline Heimburger (2015-), Co-direction with Izzie Jacques Namer * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures about "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" in the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> bb85f0b8a038c543dc4481f9015cb28c094ad577 0 90 610 594 2015-12-15T09:04:29Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:empty.png|frameless|center]] </td> </table> === PhD Subject === == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] e2baddb046dd68bc1ea1a862fa0209aad4d5a681 611 610 2015-12-15T09:14:34Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Profil.png|frameless|center]] </td> </table> === PhD Subject === == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 5315760f12e2a54dbd5c2e81f7a4ed911ee4d606 612 611 2015-12-15T09:15:21Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 9237f0b0a06e41f76b5fcc3469d524afa3565f6a 6 91 613 2015-12-15T09:17:16Z Mortada 48 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 3 614 454 2016-01-06T13:21:54Z Noblet 4 wikitext text/x-wiki === [[File:123gifs005.gif]] Job opportunity : [[:Media:MCF-61_2016.pdf|Associate professor section 61]] === [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 26a022c4a325da34519f6e76695229ecb07fbd8a 618 614 2016-01-07T14:29:17Z Noblet 4 /* File:123gifs005.gif Job opportunity : Associate professor section 61 */ wikitext text/x-wiki === [[File:123gifs005.gif]] Job opportunity : Two positions of Associate professor in [[:Media:MCF-61_2016.pdf| section 61]] and in [[:Media:MCF-61_2016.pdf| section 61]] respectively === [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] ba34a4f44cc9ef532b2ede4db54cef6e3e1067d2 619 618 2016-01-07T14:29:52Z Noblet 4 /* File:123gifs005.gif Job opportunity : Two positions of Associate professor in section 61 and in section 61 respectively */ wikitext text/x-wiki === [[File:123gifs005.gif]] Job opportunity : Two positions of Associate professor in [[:Media:MCF-61_2016.pdf| section 61]] and in [[:File:Profil_rech_MCF_17eme_section_2016.pdf| section 27]] respectively === [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 46c6712de0fc2f8ae94133ac5a39600f17182a44 620 619 2016-01-07T14:30:04Z Noblet 4 wikitext text/x-wiki === [[File:123gifs005.gif]] Job opportunity : Two positions of Associate professor in [[:Media:MCF-61_2016.pdf| section 61]] and in [[:File:Profil_rech_MCF_17eme_section_2016.pdf| section 27]] === [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 73e405d6ce4ef0f23a06e9a99ab7bc469db6de77 0 14 615 39 2016-01-06T14:41:39Z Noblet 4 wikitext text/x-wiki [[fr:Post-doc]] '''Post-doc opportunities''' * 12 months Post-doc position associated to the ANR project [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivbrain] : [[:Media:PostDoc-Vivabrain.pdf|APPLICATION]] 0c1fea3f6e453cf817b916b4c808bfae5ccebadf 616 615 2016-01-06T14:41:57Z Noblet 4 wikitext text/x-wiki [[fr:Post-doc]] '''Post-doc opportunities for 2016''' * 12 months Post-doc position associated to the ANR project [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivbrain] : [[:Media:PostDoc-Vivabrain.pdf|APPLICATION]] b73d47ee151dfe705324d00a91c93fb27bda9771 0 81 617 564 2016-01-06T20:16:01Z Courbot 44 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''B224''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://icube-miv.unistra.fr/en/index.php/Jean-Baptiste_Courbot'''<br /> |} </td> <td align=right> [[File:profil_jbc.png|frameless|center]] </td> </table> == Research Activities == My main research works focus on the creation and application of statistical methods for detection and segmentation. === Astronomical Imagery === I am currently a PhD student under the direction of [[Christophe Collet]] and the co-direction of Roland Bacon ([http://cral.univ-lyon1.fr/?lang=fr CRAL], Lyon). I am also supervised by [[Vincent Mazet]] and [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini]. PhD topic: '''Detection very low SNR faint signal: application to the astronomical hyperspectral data of the MUSE spectro-imager.''' This work is part of the [http://muse.univ-lyon1.fr/ MUSE] project and is granted by the MUSICOS ERC, dedicated to the study of galaxy formation. The MUSE instrument is a second-generation VLT instrument and came into operation in October 2014 (see also [http://www.youtube.com/watch?v=e5TopF7DGMg this video] from R.Bacon). The main objective of this work is the detection and segmentation of very faint signals present in MUSE data cubes. The elements of interest are mainly Circum-Galactic Medium and Inter-Galactic Medium, which could yet not be directly observed. They will allow a better understanding of galaxy formation and environment. [[File:Hdfs top s.png|750px|thumbnail|center|First Circum Galactic Medium detection results (contoured) around Lyman-alpha emitter galaxies (represented as stars) within a MUSE datacube (white image in background). Contour colors represents galaxies redshift.]] === Medical imagery === [[File:Courbot L5 T1 seg.png|300px|thumbnail|right|Example of segmentation results for lumbar and thoracic vertebrae.]] My engineer internship was mainly dedicated to vertebral segmentation. I developed a novel segmentation method which is valid for al vertebrae type (namely lumbar, thoracic and cervical) and on the most frequent non-standard case one can expect in clinical context. This work was the topic of a [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_16/10/2014,_14h00 talk] (French) in October 2014. [[File:Courbot illu seg L3.gif|400px|thumbnail|center|Example of a segmentation result for a L3 vertebra. ]] A vertebrae atlas was also developed, including vertebrae volumes and relative vertebrae positions and orientations. [[File:Courbot atlas vert L3.png|250px|center|thumbnail|Sectional and 3D visualizations of a mean volume from the vertebral atlas prototype. ]] === Natural Language Processing === I also worked on Part-Of-Speech Tagging, aiming at automatically find grammatical category for each word of a given text. The Hidden Markov Chain classification is very efficient in this framework, and I studied what do more complex Markov Chain models provide for this task. == Communications == === Articles === * ''Detection of Faint Extended Sources in Hyperspectral Data and Application to HDF-S MUSE Observations'', IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Shanghai, China, March 2016. * ''2-Step Robust Vertebra Segmentation'', 5th International Conference on Image Processing Theory, Tools and Applications, IPTA, Orléans, France, November 2015. * ''Segmentation robuste de vertèbres'', 25ème colloque sur le traitement du signal et des images, GRETSI, Lyon, France, September 2015. === Présentations === * ''Statistical Modeling For Automatic Vertebra Segmentation'', 5th Annual International Conference in Computational Surgery and Dual Training (Cosine), Bethesda, MD, USA, January 21, 2015. * ''Segmentation vertébrale coarse-to-fine et markovienne'', Séminaire MIV, October 16, 2014. a4b75a31f869fe5266a6b4b02b833b51eea02ea6 0 35 621 161 2016-01-12T07:45:53Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab6.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 82fb114fcd2c201318e7d332720672d5eff74ee5 622 621 2016-01-12T07:46:22Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab7-red.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. 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Cara: cada entre los dos lados de un plato.<br>Cabeza: número de cabezales.<br>Pista: una circunferencia en una cara; la pista 0 está en el borde exterior.<br>Cilindro: conjunto de varias pistas; son todas las circunferencias que están alineadas verticalmente (una de cada cara).<br>Sector : cada entre las divisiones de una pista. El tamaño del sector no es fijo, siendo el estándar actual quinientos doce bytes, aunque próximamente serán cuatro KB. Antiguamente el número de campos por pista era fijo, lo que desperdiciaba el espacio significativamente, en tanto que en las pistas exteriores pueden almacenarse más ámbitos que en las interiores. De esta manera, apareció la tecnología ZBR (grabación de bits por zonas) que aumenta el número de sectores en las pistas exteriores, y utiliza más eficazmente el disco duro.<br>El primer sistema de direccionamiento que se empleó fue el CHS (cilindro-cabeza-ámbito), ya que con estos 3 valores se puede situar un dato cualquiera del disco. Más adelante se creó otro sistema más sencillo: LBA (direccionamiento lógico de bloques), que consiste en dividir el disco entero en sectores y asignar a cada uno de ellos un único número. Éste es el que en la actualidad se usa.<br><br><br><br><br>Funcionamiento mecánico<br>Un disco duro acostumbra a tener:<br>Platos en donde se graban los datos.<br>Cabezal de lectura/escritura.<br>Motor que hace virar los platos.<br>Electroimán que mueve el cabezal.<br>Circuito electrónico de control, que incluye: interfaz con la computadora, memoria caché.<br>Bolsita desecante (gel de sílice) para eludir la humedad.<br>Caja, que tiene que proteger de la suciedad, motivo por el cual acostumbra a traer algún filtro de aire.<br><br>Características de un disco duro<br>Las peculiaridades que se deben tener en consideración en un disco duro son:<br>Tiempo medio de acceso: Tiempo medio que tarda la aguja en situarse en la pista y el campo deseado; es la suma del Tiempo medio de búsqueda (situarse en la pista), Tiempo de lectura/escritura y la Latencia media (situarse en el ámbito).<br>Tiempo medio de búsqueda: Tiempo medio que tarda la aguja en situarse en la pista deseada; es la mitad del tiempo empleado por la aguja en ir desde la pista más periférica hasta la más central del disco.<br>Tiempo de lectura/escritura: Tiempo medio que tarda el disco en leer o bien escribir nueva información: Depende de la cantidad de información que se quiere leer o redactar, el tamaño de bloque, el número de cabezales, el tiempo por vuelta y la cantidad de campos por pista.<br>Latencia media: Tiempo medio que tarda la aguja en situarse en el ámbito deseado; es la mitad del tiempo empleado en una rotación completa del disco.<br>Velocidad de rotación: Revoluciones por minuto de los platos. A mayor velocidad de rotación, menor latencia media.<br>Tasa de transferencia: Velocidad a la que puede trasferir la información a la computadora una vez la aguja está situada en la pista y ámbito adecuados. Puede ser velocidad sostenida o de pico.<br>Otras características son:<br>Caché de pista: Es una memoria tipo Flash dentro del disco duro.<br>Interfaz: Medio de comunicación entre el disco duro y la computadora. Puede ser IDE/ATA, SCSI, SATA, USB, Firewire, SAS<br>Landz: Zona sobre las que aparcan las cabezas una vez se apaga la computadora. a630f098730f41d19580bb2a6dd571aa09cc41ac 0 98 632 2016-02-08T14:03:08Z Noblet 4 Created page with "<big>'''Doctorante'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - Franc..." wikitext text/x-wiki <big>'''Doctorante'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br />Tel : +33 (0) 3 68 85 40 39<br /> Bureau : '''B252''' <br /> Courriel : '''celine.heimburger@chru-strasbourg.fr'''<br /> |} </td> <td align=right> [[File:|frameless|center]] </td> </table> == Activités de recherche == === Sujet de Thèse === <anyweb>http://icube-publis.unistra.fr/?author=heimburger&title=&team=&platform=&national=&project=&year1=&year2=&=#hideMenu</anyweb> 31c457e219b11b8d5b39282c6c0926f5b25dfd12 633 632 2016-02-08T14:03:25Z Noblet 4 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : +33 (0) 3 68 85 44 13<br />Tel : +33 (0) 3 68 85 40 39<br /> Bureau : '''B252''' <br /> Courriel : '''celine.heimburger@chru-strasbourg.fr'''<br /> |} </td> <td align=right> [[File:|frameless|center]] </td> </table> == Activités de recherche == === Sujet de Thèse === <anyweb>http://icube-publis.unistra.fr/?author=heimburger&title=&team=&platform=&national=&project=&year1=&year2=&=#hideMenu</anyweb> eece67a50f7fd4e163dd080dcbbee86c434a212d 0 99 634 2016-02-17T09:01:38Z Yves.michels 49 Created page with " <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br..." wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels(at)centrale-marseille(dot)fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[Fichier:ShemaEstimationParametres.png|700px|vignette|centré|Schéma de la construction d'un sinogramme déformable.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[Fichier:CaracteristiquesStegaVideo.png|700px|vignette|centré|Représentation des caractéristiques utilisés pour la détection des vidéos stéganographiques.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[Fichier:STORM.png|700px|vignette|centré|Images issues des données à gauche, Image reconstruite à droite.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 3d695785af623552bc551906b087bf287d76cdc5 635 634 2016-02-17T09:05:35Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels(at)centrale-marseille(dot)fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[Fichier:ShemaEstimationParametres.png|700px|vignette|centré|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[Fichier:CaracteristiquesStegaVideo.png|700px|vignette|centré|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[Fichier:STORM.png|700px|vignette|centré|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 7bf4f0358d9506a5c6f142d213816ee452266755 638 635 2016-02-17T09:12:45Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[Fichier:ShemaEstimationParametres.png|700px|vignette|centré|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[Fichier:CaracteristiquesStegaVideo.png|700px|vignette|centré|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[Fichier:STORM.png|700px|vignette|centré|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] e0dba59505ceb3a4d7f4410d96b397dd59051697 641 638 2016-02-17T09:16:40Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[File:ShemaEstimationParametres.png|700px|vignette|centré|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|700px|vignette|centré|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[Fichier:STORM.png|700px|vignette|centré|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] ee195ce648bd6cca59985cafd4ab61d9bfdf9a15 642 641 2016-02-17T09:21:46Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[File:ShemaEstimationParametres.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] f7c24e0a4f1021f7b52d882b373265c7607ba579 643 642 2016-02-17T09:26:23Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[File:ShemaEstimationParametres.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] e4c516945f198f9b09c6b97f76b575627a21eef8 6 100 636 2016-02-17T09:07:24Z Yves.michels 49 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 639 636 2016-02-17T09:13:55Z Yves.michels 49 Yves.michels uploaded a new version of &quot;[[File:CaracteristiquesStegaVideo.png]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 101 637 2016-02-17T09:09:13Z Yves.michels 49 Created page with "[[File:CaracteristiquesStegaVideo.pngnull]]" wikitext text/x-wiki [[File:CaracteristiquesStegaVideo.pngnull]] 601d6581bc8f1dc9f365a0d52a0ca4589fcd77f8 6 102 640 2016-02-17T09:15:43Z Yves.michels 49 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 71 644 597 2016-02-26T14:32:18Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> '''My website updates are currently under construction''' <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 cf71d514005a11681325c1a6acf0e54382ed598a 645 644 2016-02-26T14:32:46Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoc Fellow</big>''' {| class="wikitable" |- | ICube - MIV<br /> 300 bd Sébastien Brant<br /> Bp 10413<br /> 67400 Illkirch CEDEX - France<br /> <br /> Office : '''C216'''<br /> Email : '''oahmad@unistra.fr''' |} <br /> <big> '''My website updates are currently under construction'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 97cad38c72c8654ccf2462b9a904718a48a02cc5 0 103 646 2016-02-29T09:01:55Z Conze 46 Created page with "test" wikitext text/x-wiki test a94a8fe5ccb19ba61c4c0873d391e987982fbbd3 647 646 2016-02-29T09:03:53Z Conze 46 wikitext text/x-wiki <big>'''Post-doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Offre de stage == Dans le cadre du projet 3D-Surg, nous proposons un '''stage de fin d'étude''' dans le domaine du traitement d'images médicales. Titre : ''recalage multi-temporel et multi-modal TDM/IRM d'images abdominales''. Début souhaité : février 2016 pour une durée de 6 mois. Descriptif complet : [[:File:conze-master2016.pdf]] == Description des activités == ==== Projets TheraHCC et 3D-Surg ==== Suivi longitudinal de tumeurs hépatiques à partir de données CT/IRM. Les deux principales thématiques concernées sont : :: - le recalage non-rigide multimodal d'images abdominales :: - la segmentation du foie et des tumeurs hépatiques == Enseignements == ==== Année 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : TD Statistiques :TPS 1A : TP Analyse Numérique :TPS 1A : TD Probabilités et processus stochastiques ==== Année 2014 - 2015 ==== :TPS 1A : TD Probabilités et processus stochastiques == Publications == ==== Revues internationales==== '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper '''submitted to''' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conférences internationales ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. '''Submitted to''' IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Brevets ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 67ea1b766da84488f34d6ae7f3654670f1a4039b 648 647 2016-02-29T09:10:52Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description des activités == ==== TheraHCC and 3D-Surg projects ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal registration :: - liver tumor segmentation == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistiques :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Internationales Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted to''' Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper '''submitted to''' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== International Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Brevets ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> f47e5143d38949122994764d37db985938234834 649 648 2016-02-29T09:13:35Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal registration :: - liver tumor segmentation using machine learning == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted to''' Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper '''submitted to''' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> ca0f37c8f818da9fe79163c18e38d7755976eaf3 650 649 2016-02-29T09:17:15Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepatic-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper ''submitted'' to Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper ''submitted to'' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> c1a66949238c0f0e273183b266783ca99cd87f72 651 650 2016-02-29T09:17:46Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper ''submitted'' to Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper ''submitted to'' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 252b5b2d7571f3e4bab59f50cdcb513ff8b84d64 652 651 2016-02-29T09:18:21Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted''' to Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper '''submitted to''' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 4b3985fe6e0e83e01e5724d2bf4aa73add6c7d66 0 71 653 645 2016-03-03T16:41:31Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]<br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''My website updates are currently under construction'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 0f724606f0afc07b3ad721bbf1d810b2655c4178 654 653 2016-03-03T16:49:01Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Target = '_blank' Polytechnique de Montréal - LIV4D]<br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''My website updates are currently under construction'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 13b7869edb974e259cb6ddc610b4a71d348ae7ea 655 654 2016-03-03T16:49:21Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]<br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''My website updates are currently under construction'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 0f724606f0afc07b3ad721bbf1d810b2655c4178 656 655 2016-03-03T17:03:09Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV15.pdf|CV]]''' : Last update April, 26, 2015 6090d9fdbdf4df1a0d8947019e49b3b889b5035f 675 656 2016-05-01T16:55:46Z Ahmad 38 /* Curriculume Vitae */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV16.pdf|CV]]''' : Last update April, 26, 2015 570dc4ef477a9f326376500c10e1d4814def54d9 676 675 2016-05-01T16:56:46Z Ahmad 38 /* Curriculume Vitae */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> == <big>Research Fields </big> == <big>'''Research project : Image analysis for temporal change detection in high frequency remote sensing sequencese -- Application to multi- and hyperspectral data.'''</big><br /> <br /> '''Responsibles''' : [[Christophe Collet]] and Françoise Nerry <br /> <br/> Project for 5 months (2014-2015).<br /> '''Topic :''' <br/> This research project adresses the problem of change detection in multispectral and hyperspectral image data within short time of changes occurring in territories. The strategy is to build operational tools based on the mapping of the changes, either normal (e.g., vegetation variations) or due to unexpected disasters (e.g., earthquake). The main problems in this research work comprise the noise and background nature of the observed data, imperfect registration, the complexity of the observation system including the atmospheric effects, and the size of the processed images (Big data problem compared to the speed of changes). These issues involve together for developing an efficient and robust statistical-based image processing algorithm using a well-posed mathematical model that comprises the physical properties of the observed image for the detection problem.<br /><br /> -----------------------------<br /> <big>'''Postdoc project : Statistical image processing for growing bacteria detection and classification'''</big><br /> <br /> '''Responsible''' : [[Christophe Collet]]<br /> <br/> Project for 18 months (2013-2015).<br /> '''Topic :''' <br/> Microbial contamination detection methods requires to distinguish between mixed microbial growth of slow growing and fast growing microorganisms, and particles. The main challenge is to reduce false detection rate due to the presence of particles (vegetable cells or other no-microbial cells) from microbial contamination zones. After an early detection step, fast microbiology bacteria classification based on image analysis corresponding to growth behavior is required to be able to know what kind of detected targets really correspond to microbial proliferation. In a second step, the 3D geometrical shapes on each detected cluster is different for each microbial colony. Faster is the detection, more difficult is automatic classification and particle elimination due to weak number of bacteria within each colony. The goal is to develop a complete processing chain, robust and fast, achieving unsupervised particle/microbial discrimination and allowing as much as possible the classification of microbial contaminants.<br /><br /> -----------------------------<br /> <big>'''PhD from Ecole Nationale Supérieure des Mines de Saint-Etienne'''</big> <br /> <br /> * Available online: http://tel.archives-ouvertes.fr/tel-00905519 <br /> <br /> '''Title:'''<br /> '''Stochastic representation and analysis of rough surface topography by random fields and integral geometry - Application to the UHMWPE cup involved in total hip arthroplasty'''<br /> <br /> '''Abstract:'''<br /> The statistical analysis and characterization of surface microstructure is one of the most important applications in the field of surface science and engineering as the interpretation of the physical properties of technical surfaces strongly depends on the surface microstructure. Nowadays, the advanced 3D optical imaging systems enable measuring the three-dimensional surface topography with non-contact methods that avoid damaging its structural and textural features, making the characterization, analysis and interpretation of the surface microstructure from modelling the topographic measurements more reliable. The classical model-based methods use either second-order spatial or geometric features for micro-structured surface analysis, e.g., Gaussian and fractal surfaces. These approaches are limited to predict the changes in the asymmetric distribution of the random microstructures due to consecutive and complex physical or mechanical phenomena, like wear and tear factors. To overcome this gap, this research developed a new stochastic geometric approach that combines both higher-order spatial parameters and geometric descriptors using random field theory and integral geometry (geometry of level sets), notably intrinsic volumes. In particular, two non-Gaussian random field models are proposed in this work to describe the random micro-structured surfaces. A geometric model-fitting method is developed to test these models using intrinsic volumes. In this approach, we compute the analytical formula of the intrinsic volumes for each proposed random field model. Finally, a statistical analysis based on the best-fitted model is investigated to predict the evolution of the micro-structured surface during a mechanical interaction process. The theoretical methods were validated on biomaterial surfaces used in total hip implant, notably Ultra-High-Molecular-Weight polyethylene (UHMWPE) surface. In practice, this research provided new and original results in predicting the durability of the surface used in total hip implant compared to classical methods, and it explored interesting assortment of research perspectives.<br /><br /> -------------------------------- === <big>Publications:</big> === ''' <br /> '''<big>Book:</big>'''<br /> # O. Ahmad. "[https://www.lap-publishing.com/catalog/details//store/gb/book/978-3-659-50372-6/stochastic-representation-and-analysis-of-rough-surface-topography Stochastic representation and analysis of rough surface topography]". ''LAP LAMBERT Academic Publishing'', pp 168, 2013.<br /> '''<big>Book chapters:</big>'''<br /> # Y. Gavet, Ola. Ahmad and J.-C. Pinoli. "[http://link.springer.com/chapter/10.1007%2F978-3-642-40020-9_49 Integral geometry of linearly combined Gaussian and Student's ''t'', and skew-student's ''t'' random fields]". ''In First International Conference on Geometric Science of Information (GSI2013)'', Lecture notes in Computer Science, Springer Berlin Heidelberg, 8085, pp 449-456, Paris, France, August 28-30, 2013.<br /> '''<big>International journals:</big>'''<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.tandfonline.com/doi/abs/10.1080/15326349.2013.783290#.UySfB4V9g14 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student's t Random Fields].", ''Stochastic Models'', Vol. 29, 2, pp. 273-289, May 2013. ''[http://hal.archives-ouvertes.fr/docs/00/83/48/49/PDF/JCP-SM-29-Orig.pdf <span style="color:red">Full text download </span>] '' <br /> # O. Ahmad and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S016771521200394X On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''Statistics & Probability Letters'', Vol. 83, 2, pp. 559-567, February 2013. ''[http://hal.archives-ouvertes.fr/docs/00/81/90/94/PDF/JCP-SPL-83-Orig.pdf <span style="color:red">Full text download </span>]''<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://spie.org/x648.html?product_id=981188 Quantification of overlapping polygonal-shaped particles based on a new segmentation method of in situ images during crystallization].", ''Journal of Electronic Imaging'', Vol. 21, 2, pp. 021115-(1-11), March 2012.<br /> # O. Ahmad, J. Debayle, and J.-C. Pinoli. "[http://www.sciencedirect.com/science/article/pii/S0167865511002753 A geometric-based method for recognizing overlapping polygonal-shaped and semi-transparent particles in gray tone images]", ''Pattern Recognition Letters'', Vol. 32, 15, pp. 2068-2079, November 2011. ''[http://hal.archives-ouvertes.fr/docs/00/63/24/68/PDF/JCP-PRL-32-Orig.pdf <span style="color:red">Full text download </span>]''<br /> '''<big>Conference publications and proceedings:</big>'''<br /> #O. Ahmad, Y. Gavet, J. Geringer and J.-C. Pinoli. ''[http://hal.archives-ouvertes.fr/hal-00870518 Roughness variability estimation of microscopic surfaces during engineering wear process--Application to total hip implant]'', ''In 11th International Conference on Quality Control by Artificial Vision (QCAV)'', Fukuoka, JAPAN, May 30 - Jun 1, 2013.<br /> #O. Ahmad and J.-C. Pinoli. ``[http://dx.doi.org/10.5176/2251-1911_CMCGS13.05 Lipschitz-Killing Curvatures of the Excursion Sets of Skew Student-t Random Fields]'', ''Proceedings of 2nd Annual International Conference on Computational Mathematics, Computational Geometry & Statistics'', Singapore, February 4-5, 2013.<br /> # O. Ahmad and J.-C. Pinoli. "[http://www.iaeng.org/publication/WCECS2012/WCECS2012_pp604-608.pdf On the linear combination of the Gaussian and student's ''t'' random field and the integral geometry of its excursion sets]", ''In Proceedings of The World Congress on Engineering and Computer Science (WCECS2012)'', San Francisco, USA, 2012, October 24-26, 2012.<br /> # O. Ahmad, J. Debayle, N. Gherras, G. Fevotte, and J.-C. Pinoli. "[http://www.programme-sfgp2011.eu/pdf/403.pdf Mesure de la distribution granulométrique de cristaux aciculaires par analyse d'images acquises à l'aide d'une sonde vidéo in situ].", ''En XIIIème congrés de la Société Française de Génie des Procédés (SFGP)'', Lille, France, November 29 - December 1, 2011.<br /> # O. Ahmad, N. Gherras, J. Debayle, B. Presles, G. Fevotte, and J.-C. Pinoli. "Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions.", ''In 18th International Symposium on Industrial Crystallization (ISIC)'', Zurich, Switzerland, September 12-17, 2011.<br /> # O. Ahmad, J. Debayle, N. Gherras, B. Presles, G. Févotte, and J.-C. Pinoli. "[http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=840778 Recognizing overlapped particles during a crystallization process from in situ video images for measuring their size distributions].", ''In 10th SPIE International Conference on Quality Control by Artificial Vision (QCAV)'', Saint-Etienne, France, June 28-30, 2011. ''[http://hal.archives-ouvertes.fr/docs/00/73/32/52/PDF/OA-JEI-21-Orig.pdf <span style="color:red">Full text download </span>]'' <br /><br /><br /> ---------------------------------- === <big>Curriculume Vitae</big> === * '''[[media:MyCV16.pdf|CV]]''' : Last update Mai 1, 2016 c16ec9901ef7544f574a5bb606e73595cca51d3a 677 676 2016-05-04T13:12:52Z Ahmad 38 /* Research Fields */ wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Avant ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> Meanwhile, I kindly advise you to watch or download my CV. * '''[[media:MyCV16.pdf|CV]]''' : Last update Mai 1, 2016 -----------------------------<br /> 47338b9c70abc5cf11c8dad8c742b95f9470bd0e 678 677 2016-05-04T13:17:09Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Before ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> Meanwhile, I kindly advise you to watch or download my CV. * '''[[media:MyCV16.pdf|CV]]''' : Last update Mai 1, 2016 -----------------------------<br /> 4d22a632bcbd1dce765e16da4026eb5f25119a58 0 4 657 631 2016-03-03T17:08:10Z Ahmad 38 /* Former members */ wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]] : Postdoctoral Fellow at Polytechnique de Montréal * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 42355189e353c072d81b043cd86abfdcb9295701 658 657 2016-03-03T17:10:05Z Ahmad 38 /* Former members */ wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: <span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Postdoctoral Fellow at Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 1441388d7e8d7a41bbb5f70b6354db82a580c851 659 658 2016-03-03T17:11:09Z Ahmad 38 /* Former members */ wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: Postdoctoral Fellow at <span class="plainlinks">[http://www.polymtl.ca/en Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] f704023b67226df941f0b571f5de5593a162aa6b 660 659 2016-03-03T17:12:57Z Ahmad 38 /* Former members */ wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: Postdoctoral Fellow at <span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[ Khoshnoudirad_Daniel_(Balal) | KHOSHNOUDIRAD Daniel ]] * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 258ff1bfae16b8d569ed45b633bd8fd70d98325a 662 660 2016-03-17T14:41:00Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: Postdoctoral Fellow at <span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] f930cc856bba2f04b5a9905fce80e467a3ad28d8 666 662 2016-04-14T12:58:44Z Pimmel 43 wikitext text/x-wiki <anyweb>http://icube-intranet.unistra.fr/en/directory/trombi/miv</anyweb> {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: Postdoctoral Fellow at <span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] 18ce63879a98de8ec8b570cd7e5ff179393a38bc 667 666 2016-04-14T12:59:38Z Pimmel 43 wikitext text/x-wiki {| class="wikitable sortable" |- ! Name Firstname !! Position !! Office !! Phone !! E-mail |- | [http://icube-bfo.unistra.fr/fr/index.php/Grégory_Apou APOU Grégory] || PhD student ||C326 || +33 (0)3 68 85 45 54 || gapou (at) unistra (dot) fr |- | [[Etienne_Baudrier|BAUDRIER Etienne]] || Associate professor ||C221 || +33 (0)3.68.85.44.94 || baudrier @ unistra.fr |- | [[ Alix Bouchon|BOUCHON Alix]] || PhD student || B252 || +33 (0)3 68 85 44 13 || alix.bouchon@etu.unistra.fr |- | [[ Marine Bouthillon|BOUTHILLON Marine]] || PhD student CIFRE || B251 || +33 (0)3 68 85 45 93 || marine.bouthillon@etu.unistra.fr |- | [[ Christophe Collet|COLLET Christophe]] || Professor || C210 || +33(0) 368 854 490 || c.collet@unistra.fr |- | [[ Pierre-Henri Conze|CONZE Pierre-Henri]] || Postdoc || B252 || +33(0) 368 854 413 || conze@unistra.fr |- | [[ Jean-Baptiste Courbot|COURBOT Jean-Baptiste]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || jb(dot)courbot(at)unistra.fr |- | [[Marie-Andrée Jacob-Da Col|JACOB-DA COL Marie-andrée]] || Associate professor || C226 || || dacolm@unistra.fr |- | [[Sylvain Faisan|FAISAN Sylvain]] || Associate professor || C211 || +33 3 68 85 44 89 || faisan(at)unistra(dot)fr |- | [[Céline Heimburger|HEIMBURGER Céline]] || PhD student || B223 || +33 (0)3 68 85 44 13 || celine(dot)heimburger(at)chru-strasbourg(dot)fr |- | [[Christian Heinrich|HEINRICH Christian]] || Professor || C209 || +33 (0)3 68 85 44 88 || christian(dot)heinrich(at)unistra(dot)fr |- | [[Fabrice_Heitz|HEITZ Fabrice]] || Professor || C215 || +33 (0)3 68 85 44 87 || fabrice(dot)heitz(at)unistra(dot)fr |- | [[E._Hirsch|HIRSCH Ernest]] || Professor || C214 || +33 (0)3 68 85 44 92 || e(dot)hirsch(at)unistra(dot)fr |- | HUBELE Fabrice || MCUPH PhD student || CHU || +33 (0)3 88 12 75 47 || fabrice(dot)hubele(at)icube.unistra.fr |- | [[Stephane_Kremer|KREMER Stéphane]] || PU-PH || CHU || || stephane(dot)kremer(at)chru-strasbourg(dot)fr |- | [[Alex Lallement|LALLEMENT Alex]] || Associate professor || C220 || +33 3 68 85 44 85|| alex(dot)lallement(at)unistra(dot)fr |- | [[ Mireille Louys|LOUYS Mireille]] || Associate professor || C220 || +33 3 68 85 24 34 || mireille_._louys_@_unistra_._fr |- | [[Vincent Mazet|MAZET Vincent]] || Associate professor || C219 || 03 68 85 44 91 || vincent.mazet@unistra.fr |- | [[Loïc Mazo|MAZO Loïc]] || Associate professor || C217 || 03 68 85 44 96 || loic.mazo@unistra.fr |- | [[Yves Michels|MICHELS Yves]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || yves.michels@icube.unistra.fr |- | [[Hassan Mortada|MORTADA Hassan]] || PhD student || B224 || 33 (0) 3 68 85 44 52 || hassan.mortada@etu.unistra.fr |- | [[Benoît Naegel|NAEGEL Benoît]] || Associate professor || C230 || 03 68 85 48 56 || b(dot)naegel(at)unistra(dot)fr |- | [[NGO Tran Thanh|NGO Thanh]] || Doctorant || B251 || 06 51 97 70 98 || ttngo@unistra.fr |- | [[Vincent Noblet|NOBLET Vincent]] || Research Engineer || C211 || +33 3 68 85 44 89 || vincent(dot)noblet(at)unistra(dot)fr |- | [[Mickael Ohana|OHANA Mickael]] || MCUPH-PhD student || CHU || - ||mohana(at)etu(dot)unistra(dot)fr |- | [[PHAN_Minh_Son|PHAN Minh Son]] || PhD student || C226 || +33 (0) 3 68 85 44 98 || msphan@unistra.fr |- | [[Hmida Rojbani|ROJBANI Hmida]] || PhD student || Tunis || || hmida.rojbani @ icube.unistra.fr |- | [[Christian Ronse|RONSE Christian]] || Professor || C228a || +33 3 68 85 45 00 || christian.ronse @ icube.unistra.fr |- | [[Marion Sourty|SOURTY Marion]] || PhD student || || || sourty(at)unistra(dot)fr |- | [[Lucas Soustelle|SOUSTELLE Lucas]] || PhD student || IPB || || lsoustelle(at)unistra(dot)fr |- | [[Mohamed_TAJINE|TAJINE Mohamed]] || Professor || C228b || +33 (0) 3 68 85 45 73 || tajine @ unistra.fr |- | [[ Laurent Thoraval|THORAVAL Laurent]] || Associate professor || C227a || || laurent(dot)thoraval(at)unistra(dot)fr |- |[[Pierre CHARBONNIER | CHARBONNIER Pierre]] || External collaborator || || +33 (0)388 77 46 44 || p(dot)charbonnier(at)unistra(dot)fr |- |[[Sophie KOHLER | KOHLER Sophie]] || External collaborator || || || |- |} ==== Former members ==== * [[ Fatma Abdmouleh|ABDMOULEH Fatma ]] * [[ Ola Ahmad|AHMAD Ola ]]: Postdoctoral Fellow at <span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal]</span> * [http://personals.okan.edu.tr/erchan.aptoula/ APTOULA Erchan] : Associate Professor, Okan University * BELGHITH Akram (Post-Doc à San Diego, USA) * BELHAOUA Abdelkrim * [http://ca.linkedin.com/pub/aïcha-bentaieb/30/b00/8/ BENTAIEB Aicha]: PhD student, Simon fraser University, Vancouver. * [http://herve.boisgontier.free.fr/ BOISGONTIER Hervé] : Teacher in Computer science at l'ENI Nantes. * BOUBCHIR Larbi : Research Fellow, Northumbria University, Newcastle. * BOURAOUI Bessem * [http://www-l2ti.univ-paris13.fr/~bosc/ BOSC Marcel] : Associate Professor at Université Paris 13. * BRICQ Stéphanie (Associate Professor at Université de Bourgogne) * [http://www.linkedin.com/in/matthieubrucher BRUCHER Matthieu] : Engineer R&D Total. * [http://ca.linkedin.com/pub/benoit-caldairou/64/4a7/515 CALDAIROU Benoît] : post-doctorant, université McGill, Montréal. * [http://fr.linkedin.com/pub/frédéric-champ/21/63b/986/ CHAMP Frédéric] : engineer at l'IRCAD, Strasbourg * CHARNOZ Arnaud * [https://www.scss.tcd.ie/Rozenn.Dahyot/ DAHYOT Rozenn] : Assitant Professor in Statistics, Trinity College, Dublin. * [http://a.daurat.pagesperso-orange.fr/topic/index.html DAURAT Alain] : UdS, Associate Professor, †2010. * DRAMAN Cemal : Research Engineer, en disponibilité (CEO, [http://www.optilek.com/ Optilek]). * [[ Alice Dufour|DUFOUR Alice]] * FLITTI Farid : Senior Researcher at BHP Billiton R&D, Perth, Australie * FOULONNEAU Alban : Associate Professor, Université Haute Alsace, Laboratoire MIPS. * GENDRIN Christelle : research engineer, Université de Vienne, Austria. * [[GKAMAS Theodosios|GKAMAS Theodosios]] * GRAEBLING Pierre, UdS, Professor, †2011. * [http://antoine.grigis.voila.net/ GRIGIS Antoine] * GUTIÉRREZ Jorge * [http://lsiit-miv.u-strasbg.fr/paseo/jalobeanu.php JALOBEANU André] (2005-2007): research scientist at Applied Research Laboratories, The University of Texas at Austin * HAMDAN Raouf : Associate Professor, Université de Damas, Syrie. * [[Ammar HANNACHI| HANNACHI Ammar ]] * [http://www.linkedin.com/in/slimkarkar KARKAR Slim] * KHEMMAR Redouane * [[François Lavigne|LAVIGNE François]] * LE CAM Steven, associate Professor at Université de Lorraine * [http://people.irisa.fr/Sebastien.Lefevre/ LEFEVRE Sébastien]: professor at Université de Bretagne Sud * MEFFRE Alban: Engineer at RSI Video Technologies * [http://www.linkedin.com/pub/olivier-musse/9/460/742 MUSSE Olivier] : Project Manager, Grass Valley, Rennes. * [http://www.cs.uoi.gr/~cnikou/ NIKOU Christophoros] : Assistant Professor in Computer Science, University of Ioannina, Greece * [http://fr.linkedin.com/pub/estanislao-oubel/29/636/1/en OUBEL Estanislao]: senior scientist at [http://www.mediantechnologies.com Median Technologies] * [http://crestic.univ-reims.fr/membre/1542-nicolas-passat PASSAT Nicolas] : professor at Université de Reims * [http://www.esiee.fr/~perretb/ PERRET Benjamin] (09/2007-08/2011): associate professor at ESIEE Paris * PETREMAND Matthieu : Ingénieur de recherche, SSII, Montpellier * [http://www.linkedin.com/pub/julien-pontabry/47/4a2/b78 PONTABRY Julien]: research engineer at IGBMC, Illkirch * [http://www.gipsa-lab.grenoble-inp.fr/page_pro.php?vid=1447 RENARD Felix] * [[François Rousseau|ROUSSEAU François]]: professor at [http://perso.telecom-bretagne.eu/francoisrousseau Telecom Bretagne] * ROUX Romain * [[Edmond Rust|RUST Edmond]] * [http://info.iut-bm.univ-fcomte.fr/staff/salomon/ SALOMON Michel]: Associate Professor at Université de Franche-Comté * [[Florent Savary|SAVARY Florent]] * SCHRAMM Jean-maurice * [http://fr.linkedin.com/pub/marc-schweitzer/18/5b7/aa7/en SCHWEITZER Marc]: engineer at IRCAD, Strasbourg * [http://www.cs.uoi.gr/~sfikas/ SFIKAS Giorgos] * [http://www.linkedin.com/pub/swati-sharma/46/72a/405 SHARMA Swati] : Associate Professor at DeVry University, Chicago * [http://www-ipb.u-strasbg.fr/staff/vik/vik.htm TORBJORN Vik] : Senior researcher, Philips, Hamburg. * YOUNES Lara * ZOUAOUI Mahdi [[fr:Membres]] f930cc856bba2f04b5a9905fce80e467a3ad28d8 0 6 661 630 2016-03-08T17:20:31Z Noblet 4 /* Description of activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of Céline Heimburger (2015-), Co-direction with Izzie Jacques Namer * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures about "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" in the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 374ed339e8bed45a1df55fc455e2a662480e0ca3 664 661 2016-03-22T09:01:09Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Sciences et Technologies de l'Information]" (Strasbourg University) * Lectures about "[http://miv.u-strasbg.fr/mazet/ofti/ Basic tools for image processing]" in the Master [http://master-iriv.u-strasbg.fr Master Images, Sciences et Technologies de l'Information] (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> a3698002b350d56ff2a398b29b2540a6c7ce3e86 696 664 2016-07-11T13:31:22Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013- ), Co-supervision with [[Fabrice Heitz]] and Catherie Roy * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> c050232bfdc271148e27ec6749fe9984a4285a16 697 696 2016-07-11T13:33:33Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> be72ba4c90df995b58c81983c63e976774dcc8fe 698 697 2016-07-11T13:33:44Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0</anyweb> 1b136638e982a01af5f4d7fe92aacc8ef50dcf68 100 30 663 225 2016-03-17T16:41:07Z Mazet 3 wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[en:Probabilistic analysis for space & Earth observations]] c00ba955dd23704aef61d0ffb254d40bd4a86e5b 0 103 665 652 2016-04-08T15:04:06Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted''' to Pattern Recognition (PR), special issue in Machine Learning in Medical Imaging (MLMI). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy for long-term dense motion estimation''. Journal paper '''submitted to''' Computer Vision and Image Understanding (CVIU). Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper accepted in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 3428f31c2c66ebf6d4d2e9589f4d6bb58ae8f953 689 665 2016-05-24T09:36:17Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted to''' International Journal of Computer Assisted Radiology and Surgery (IJCARS). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy towards longer long-term dense motion estimation''. Journal paper '''accepted in''' Computer Vision and Image Understanding (CVIU). [http://www.sciencedirect.com/science/article/pii/S1077314216300340 Lien] Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper '''accepted''' in IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 8020df8ebaa3a7517b23d042fd9ea4dcbe95ee56 690 689 2016-05-24T09:36:39Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2015 - 2016 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted to''' International Journal of Computer Assisted Radiology and Surgery (IJCARS). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy towards longer long-term dense motion estimation''. Journal paper '''accepted in''' Computer Vision and Image Understanding (CVIU). [http://www.sciencedirect.com/science/article/pii/S1077314216300340 Lien] Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper '''accepted in''' IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 86281da763e33959105dadebf79d30ab0018b86e 0 3 668 620 2016-04-19T08:08:53Z Noblet 4 wikitext text/x-wiki [[File:Miv.jpg|frameless|center|400px]]<br /> The research topic of the team is imaging. We focus on the modeling, processing and analysis of image series, on computer vision, and on the interactions between computer vision and image synthesis. <br> The global goal is the development of innovative image processing and computer vision methods and algorithms. <br> The general objectives are: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] ecbcbac99e3b29566a982d4ca07c92a7ecbe8376 0 104 669 2016-04-25T20:26:33Z Noblet 4 Created page with "<big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 <br /> Fax : + 33 (0) <br /> Bureau : '''???''' <br /> Courriel : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description des activités == == Publications == 1b9ed695fbc2b736a2a755dfd17448eba91a2af0 670 669 2016-04-25T20:28:46Z Noblet 4 wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone: + 33 (0) 3 <br /> Fa : + 33 (0) <br /> Office : '''???''' <br /> E-mail : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities == == Publications == b709f2db6bfbdd4fb8613f711724232decce7c8c 671 670 2016-04-25T20:29:03Z Noblet 4 wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone: + 33 (0) 3 <br /> Fax: + 33 (0) <br /> Office : '''???''' <br /> E-mail : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities == == Publications == 94c9f9b58ffa1b4810ecf033729e775678621fa4 0 105 672 2016-04-25T20:29:40Z Noblet 4 Created page with "<big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone: + 33 (0) 3 <br /> Fax: + 33 (0) <br /> Office : '''???''' <br /> E-mail : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities == == Publications == 94c9f9b58ffa1b4810ecf033729e775678621fa4 0 106 673 2016-04-25T20:30:20Z Noblet 4 Created page with "<big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone: + 33 (0) 3 <br /> Fax: + 33 (0) <br /> Office : '''???''' <br /> E-mail : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities == == Publications == 94c9f9b58ffa1b4810ecf033729e775678621fa4 6 107 674 2016-05-01T16:55:18Z Ahmad 38 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 679 674 2016-05-05T02:49:44Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:MyCV16.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 90 680 612 2016-05-20T15:27:43Z Mortada 48 /* PhD Subject */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] c15ec420a4e2645d12d0daf407edf7c7c0beaf01 681 680 2016-05-20T15:28:30Z Mortada 48 /* PhD Subject */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] d2f533b9b554fdba856747f2f4c1bada130451cb 682 681 2016-05-20T15:28:56Z Mortada 48 /* PhD Subject */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === -sparse approximation; -inverse problems; -source separation; == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 5874fd9dedb97bb5d1843c4713284c99b1ee60e3 683 682 2016-05-20T15:29:30Z Mortada 48 /* research interests */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Bulleted list item -sparse approximation; -inverse problems; -source separation; == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 2c700b82f11138d558504c78ee427cab847744bd 684 683 2016-05-20T15:30:28Z Mortada 48 /* research interests */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''hassan(dot)mortada(at)etu(dot)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Source separation == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 5a7e64026c4d030c24261e11810838632262dad6 685 684 2016-05-20T15:31:46Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 55<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Source separation == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 97b8bad82a3f37d8d4720505f7922cf2b33b9b6c 686 685 2016-05-20T15:32:08Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Source separation == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 79196466cc98f5f2558bbad85dbaae7fd6ada469 687 686 2016-05-20T15:33:39Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Source separation == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 14fd3533bf85115e55176f4c088b63968a7b17e0 688 687 2016-05-20T15:35:50Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Sources separation == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 99156cc4f309c2df17ea26449c18adf95368b8b6 100 47 691 532 2016-05-24T14:45:03Z Naegel 6 wikitext text/x-wiki Head : [[Mohamed TAJINE]] This theme regroups activities on geometric, topological, algebraic and discrete models for imaging. Firstly in Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools we develop are suitable for image analysis and synthesis. The objectives are firstly to build a robust and powerful algorithmics in imaging, controlling treatment errors related to the use of real numbers, and secondly to develop tools to study different properties (differential, geometric and topological) of objects, both discrete and Euclidean. More generally, we study the transfer of properties between Euclidean spaces representing "reality" and the discrete spaces representing the computer. Next, in [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology], we study the construction of new operators for morphological processing image processing, as well as the extension of morphology to new types of objects. Work is also carried out on morphological image segmentation and the application of mathematical morphology to color or multispectral images. The preferred field of application is currently in medical imaging. ===== Members ===== * [[Etienne_Baudrier|BAUDRIER Etienne]] * DA COL-JACOB Marie-Andrée * [[Loïc Mazo|MAZO Loïc]] * [[Benoît Naegel|NAEGEL Benoît]] * [[PHAN Minh Son|PHAN Son]] * [[Christian Ronse|RONSE Christian]] * [[Mohamed TAJINE|TAJINE Mohamed]] ===== Collaborations ===== * [http://ligm.u-pem.fr/equipes/algorithmes-architectures-analyse-et-synthese-dimages/ Groupe Géométrie Discrète et Imagerie] du Laboratoire d'Informatique de de l'Institut Gaspard Monge, Marne-La-Vallée. * [http://limos.isima.fr/ Laboratoire d'Informatique, de Modélisation et d'Optimisation des Systèmes] de Clermont-Ferrand. ===== More information ===== * concerning Discrete Geometry; * concerning [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm Mathematical Morphology]. <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 4f5617df5dfbfdc232e5ee0fdd3edb90faae5f40 0 35 692 622 2016-06-03T15:21:49Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab7-red.JPG|400px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 7e12166551c2371a7e469fec9840398eeb3fc378 693 692 2016-06-03T15:24:00Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Fab7-red.JPG|200px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 5b51c40fe9fb8d9fa1ca0cb833f3dc3756189175 694 693 2016-06-03T15:27:14Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /> [http://orcid.org/0000-0002-3004-0957 ORCID] <br /> |} </td> <td align=right> [[File:Fab7-red.JPG|200px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> a8e73a90fb57561cd2e0c3b663c38f3bce2ade6f 695 694 2016-06-03T15:28:50Z Heitz 30 wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /><br /> [http://orcid.org/0000-0002-3004-0957 ORCID] <br /> |} </td> <td align=right> [[File:Fab7-red.JPG|200px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group in Image Modeling and Processing === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal ans Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing. *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 2e157d83fd3b39f3852048e2435adaa9358b959a 6 108 699 2016-07-20T09:50:11Z Yves.michels 49 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 99 700 643 2016-07-20T09:51:14Z Yves.michels 49 /* PhD */ wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[File:Shema_PageAcceuil_EN.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 69b61934a68a8e7a91088b13c6a83e880e48faba 702 700 2016-07-20T09:53:19Z Yves.michels 49 /* PhD */ wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab initio'' tomographic reconstruction methods of deformable objects. My work is focussing on parameters estimations related to the orientation and the state of deformation of the observed object. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] ef39d7a19ec946a66fd1ee2ec7f9299c5a6e00ab 6 109 701 2016-07-20T09:53:07Z Yves.michels 49 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 104 703 671 2016-08-26T08:15:41Z Noblet 4 Noblet moved page [[Erik Sauleau]] to [[Erik-André Sauleau]] wikitext text/x-wiki <big>'''fonctions'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Phone: + 33 (0) 3 <br /> Fax: + 33 (0) <br /> Office : '''???''' <br /> E-mail : '''(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of activities == == Publications == 94c9f9b58ffa1b4810ecf033729e775678621fa4 713 703 2016-09-26T08:38:13Z Sauleau 54 wikitext text/x-wiki <big>'''University Professor - Hospital Practitioner '''</big> * Head of MiBISA research group <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 39 51 <br /> Fax : + 33 (0) <br /> Bureau : '''???''' <br /> Courriel : '''ea(dot)sauleau(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == The Laboratory of Biostatistic and Medical Informatics (LBIM) == The LBM is a ward in the Faculty of Medicine. It provides teaching and research missions in analyses of health data. The lectures are primarily intended for medical students, students of paramedical schools and more generaly students enrolled in courses in which these analyzes are needed (masters in public health for example). In research, most of LBIM's work is structured around Bayesian inference, methods for clinical research (new study patterns, specific statistical analyzes ...) and spatial analysis. The team was also interested until recently in the theory, software implementation and application of PLS ​​methods in medicine, particularly in the context of allelotyping. == Description of my research activities == My main research interests relate to the Bayesian inference in its epistemological, historical and methodological aspects. Implemented Bayesian models are then applied to different types of health data: * Clinical Research. In the Bayesian toolbox for planning and analysing clinical trials, calculation techniques for sample size and predictive probability allow to finely modulate the number of subjects to be recruited into a study. * Geographical and spatial models. The spatial location or even spaciotemporal in health data is becoming more and more common. It's the same with questions about possible links between exposure to given risk factors and occurrence of health events. Almost all of the spatial models can be integrated into the general framework of generalized additive models with a spatial component, a particular case of "Structured Additive Regressions" or StAR models. Une partie de ces activités se structurent au sein d'un groupe de recherche portant sur la '''causalité en épidémiologie'''. L'objectif général de ce groupe est de réfléchir aux fondements philosophiques et épidémiologiques/biostatistiques de la causalité et de la modélisation causale, avec un ancrage tout particulier sur l’historique de ces approches et leur historiographie. L’approche mobilisée est la constitution d’un réseau scientifique international, éminemment multi- et interdisciplinaire : '''INCEPTION''' (pour Interdisciplinary Network on Causality in EPidemiological investigaTIONs). Ce réseau commence à s’articuler autour d’un axe géographique réunissant trois lieux et une série d’équipes « fondatrices » à Strasbourg, Cambridge (UK) et Cagliari (I). == Enseignements == * Responsable du Diplôme d’Université de Biostatistique " Des statistiques fréquentistes aux statistiques bayésiennes " * Responsable du C2i niveau 1 (Faculté de Médecine) * TD de statistiques en PACES * Une vingtaine d'heures de cours ou de TD introductifs à la biostatistique et à la lecture critique d'article (écoles paramédicales) * Cours dédiés à l'inférence bayésienne (master de Santé Publique du Grand Ouest) == Publications == <anyweb>http://icube-publis.unistra.fr/?author=sauleau&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> bb354c4e522d676634e0d8d53cc06b8fbc5836d4 714 713 2016-09-26T08:49:32Z Sauleau 54 wikitext text/x-wiki <big>'''University Professor - Hospital Practitioner '''</big> * Head of MiBISA research group <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 39 51 <br /> Fax : + 33 (0) <br /> Bureau : '''???''' <br /> Courriel : '''ea(dot)sauleau(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == The Laboratory of Biostatistic and Medical Informatics (LBIM) == The LBM is a ward in the Faculty of Medicine. It provides teaching and research missions in analyses of health data. The lectures are primarily intended for medical students, students of paramedical schools and more generaly students enrolled in courses in which these analyzes are needed (masters in public health for example). In research, most of LBIM's work is structured around Bayesian inference, methods for clinical research (new study patterns, specific statistical analyzes ...) and spatial analysis. The team was also interested until recently in the theory, software implementation and application of PLS ​​methods in medicine, particularly in the context of allelotyping. == Description of my research activities == My main research interests relate to the Bayesian inference in its epistemological, historical and methodological aspects. Implemented Bayesian models are then applied to different types of health data: * Clinical Research. In the Bayesian toolbox for planning and analysing clinical trials, calculation techniques for sample size and predictive probability allow to finely modulate the number of subjects to be recruited into a study. * Geographical and spatial models. The spatial location or even spaciotemporal in health data is becoming more and more common. It's the same with questions about possible links between exposure to given risk factors and occurrence of health events. Almost all of the spatial models can be integrated into the general framework of generalized additive models with a spatial component, a particular case of "Structured Additive Regressions" or StAR models. Some of these activities are structured in a research group on the '''causality in epidemiology'''. The overall objective of this group is enhance knowledge on the philosophical and epidemiological/biostatistics foundations of causation and causal modeling, with special anchoring on the history of these approaches and their historiography. We aim to strengthend an international scientific network, eminently multidisciplinary and interdisciplinary: '''INCEPTION''' (for Interdisciplinary Network on Causality in EPidemiological investigaTIONs). This network begins to evolve around a geographical axis of three places and teams in Strasbourg, Cambridge (UK) and Cagliari (I). == Enseignements == * Responsible for the University Diploma (Diplôme d'Université, DU): Biostatistics "From frequentist to Bayesian statistics" * Responsible for Informatics Certificate, Level 1 (Faculty of Medicine) * Tutorial classes (travaux dirigés) in statistics in the first common year for health studies (PACES) * About 20 hours in introductory lectures in biostatistics and critical reading of scientific papers (paramedics) * Lectures in Bayésian inference (Master in public health) == Publications == <anyweb>http://icube-publis.unistra.fr/?author=sauleau&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> 46dd0b3faed01107374aa75aa8e24a65db4c9c4e 715 714 2016-09-26T08:50:12Z Sauleau 54 wikitext text/x-wiki <big>'''University Professor - Hospital Practitioner '''</big> * Head of MiBISA research group <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 39 51 <br /> Fax : + 33 (0) <br /> Bureau : '''???''' <br /> Courriel : '''ea(dot)sauleau(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == The Laboratory of Biostatistic and Medical Informatics (LBIM) == The LBM is a ward in the Faculty of Medicine. It provides teaching and research missions in analyses of health data. The lectures are primarily intended for medical students, students of paramedical schools and more generaly students enrolled in courses in which these analyzes are needed (masters in public health for example). In research, most of LBIM's work is structured around Bayesian inference, methods for clinical research (new study patterns, specific statistical analyzes ...) and spatial analysis. The team was also interested until recently in the theory, software implementation and application of PLS ​​methods in medicine, particularly in the context of allelotyping. == Description of my research activities == My main research interests relate to the Bayesian inference in its epistemological, historical and methodological aspects. Implemented Bayesian models are then applied to different types of health data: * Clinical Research. In the Bayesian toolbox for planning and analysing clinical trials, calculation techniques for sample size and predictive probability allow to finely modulate the number of subjects to be recruited into a study. * Geographical and spatial models. The spatial location or even spaciotemporal in health data is becoming more and more common. It's the same with questions about possible links between exposure to given risk factors and occurrence of health events. Almost all of the spatial models can be integrated into the general framework of generalized additive models with a spatial component, a particular case of "Structured Additive Regressions" or StAR models. Some of these activities are structured in a research group on the '''causality in epidemiology'''. The overall objective of this group is enhance knowledge on the philosophical and epidemiological/biostatistics foundations of causation and causal modeling, with special anchoring on the history of these approaches and their historiography. We aim to strengthend an international scientific network, eminently multidisciplinary and interdisciplinary: '''INCEPTION''' (for Interdisciplinary Network on Causality in EPidemiological investigaTIONs). This network begins to evolve around a geographical axis of three places and teams in Strasbourg, Cambridge (UK) and Cagliari (I). == Enseignements == * Responsible for the University Diploma (Diplôme d'Université, DU): Biostatistics "From frequentist to Bayesian statistics" * Responsible for Informatics Certificate (C2i), Level 1 (Faculty of Medicine) * Tutorial classes (travaux dirigés) in statistics in the first common year for health studies (PACES) * About 20 hours in introductory lectures in biostatistics and critical reading of scientific papers (paramedics) * Lectures in Bayésian inference (Master in public health) == Publications == <anyweb>http://icube-publis.unistra.fr/?author=sauleau&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> e57b7c118801912692adefc3a3eb1df1b0215611 726 715 2016-09-30T12:13:55Z Sauleau 54 wikitext text/x-wiki <big>'''University Professor - Hospital Practitioner '''</big> * Head of MiBISA research group <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 39 51 <br /> Fax : + 33 (0) <br /> Bureau : '''???''' <br /> Courriel : '''ea(dot)sauleau(at)unistra(dot)fr'''<br />Page personelle : '''http://'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == The Laboratory of Biostatistic and Medical Informatics (LBIM) == The LBM is a ward in the Faculty of Medicine. It provides teaching and research missions in analyses of health data. The lectures are primarily intended for medical students, students of paramedical schools and more generaly students enrolled in courses in which these analyzes are needed (masters in public health for example). In research, most of LBIM's work is structured around Bayesian inference, methods for clinical research (new study patterns, specific statistical analyzes ...) and spatial analysis. The team was also interested until recently in the theory, software implementation and application of PLS ​​methods in medicine, particularly in the context of allelotyping. == Description of my research activities == My main research interests relate to the Bayesian inference in its epistemological, historical and methodological aspects. Implemented Bayesian models are then applied to different types of health data: * Clinical Research. In the Bayesian toolbox for planning and analysing clinical trials, calculation techniques for sample size and predictive probability allow to finely modulate the number of subjects to be recruited into a study. * Geographical and spatial models. The spatial location or even spaciotemporal in health data is becoming more and more common. It's the same with questions about possible links between exposure to given risk factors and occurrence of health events. Almost all of the spatial models can be integrated into the general framework of generalized additive models with a spatial component, a particular case of "Structured Additive Regressions" or StAR models. Some of these activities are structured in a research group on the '''causality in epidemiology'''. The overall objective of this group is enhance knowledge on the philosophical and epidemiological/biostatistics foundations of causation and causal modeling, with special anchoring on the history of these approaches and their historiography. We aim to strengthend an international scientific network, eminently multidisciplinary and interdisciplinary: '''INCEPTION''' (for Interdisciplinary Network on Causality in EPidemiological investigaTIONs). This network begins to evolve around a geographical axis of three places and teams in Strasbourg, Cambridge (UK) and Cagliari (I). == Teaching == * Responsible for the University Diploma (Diplôme d'Université, DU): Biostatistics "From frequentist to Bayesian statistics" * Responsible for Informatics Certificate (C2i), Level 1 (Faculty of Medicine) * Tutorial classes (travaux dirigés) in statistics in the first common year for health studies (PACES) * About 20 hours in introductory lectures in biostatistics and critical reading of scientific papers (paramedics) * Lectures in Bayésian inference (Master in public health) == Publications == <anyweb>http://icube-publis.unistra.fr/?author=sauleau&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> 50c1a8c578c21460fccb2fb1303e9123291c066f 0 110 704 2016-08-26T08:15:41Z Noblet 4 Noblet moved page [[Erik Sauleau]] to [[Erik-André Sauleau]] wikitext text/x-wiki #REDIRECT [[Erik-André Sauleau]] 6df6dc113bf9bad102bbd23aa6c4d8200ca26e1d 0 6 705 698 2016-08-26T09:38:39Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> f1c0dc398b64ea2a940448e6b7456a3de2d9b06c 707 705 2016-09-14T09:21:29Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Traitement d'images biomédicales]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 77cd1e25e20fd9fa1fcf368eeb088b41b7f63ffe 708 707 2016-09-14T09:22:02Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> a767178c9aba619afd54c867935cbe68de657f02 709 708 2016-09-14T09:22:17Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012- ), Co-supervision with [[Fabrice Heitz]] defended thesis: * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> d776503c74530ccdef5cdf500dcfbf6d21869bbd 0 99 706 702 2016-09-08T07:05:10Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 92c24b7a098ddef19e533b3e02928be0ba01172e 100 56 710 604 2016-09-14T09:43:09Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] ''Head'': [[Vincent Noblet|Vincent Noblet]] ''Investigators:'' ' [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] ''Ph. D. students:'' [http://icube-bfo.unistra.fr/fr/index.php/Gregory_Apou Gregory Apou], [[Alix Bouchon]], [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Marion Sourty]], [[Lucas Soustelle]], [[Florian Tilquin]] ''Post doc:'' [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille] Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 4030afddba4d66d289427349634405845ae7c21f 727 710 2016-10-06T13:52:22Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectifs == <table> <tr> <td> Ce thème a pour objet le développement de modèles, de méthodes et d’algorithmes pour le traitement de données issues de divers imageurs médicaux et biologiques : * imagerie par résonance magnétique (IRM structurelle, diffusion, angiographie, fonctionnelle,...) * imagerie de médecine nucléaire * scanner X * microscopie électronique * histologie * imageur spectro-polarimétrique * etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> Le but est de développer des méthodes de traitement d’image pour l’étude du vivant à différentes échelles dans le cas de données pré-cliniques (imagerie du petit animal) et cliniques (imagerie de l’homme) : * échelle microscopique : reconstruction de macro-molécules en microscopie électronique, analyse d’images cellulaires avec la technologie FIB/SEM, ... * échelle mésoscopique : analyse de données histopathologiques, étude de tissus biologiques en imagerie polarimétrie, ... * échelle macroscopique : étude de la connectivité cérébrale, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Thématiques de recherche == Les activités de recherche du thème sont structurées suivant six axes : {| |- | '''Reconstruction de données'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Recalage''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Détection et prédiction de changements''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Comparaison de populations''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Etude de la connectivité cérébrale''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ------------------------- Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 691d943c5e77441cc5f2a2bcc21ed05f0f5442bc 728 727 2016-10-06T13:56:33Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural MRI, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> Le but est de développer des méthodes de traitement d’image pour l’étude du vivant à différentes échelles dans le cas de données pré-cliniques (imagerie du petit animal) et cliniques (imagerie de l’homme) : * échelle microscopique : reconstruction de macro-molécules en microscopie électronique, analyse d’images cellulaires avec la technologie FIB/SEM, ... * échelle mésoscopique : analyse de données histopathologiques, étude de tissus biologiques en imagerie polarimétrie, ... * échelle macroscopique : étude de la connectivité cérébrale, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Thématiques de recherche == Les activités de recherche du thème sont structurées suivant six axes : {| |- | '''Reconstruction de données'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Recalage''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Détection et prédiction de changements''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Comparaison de populations''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Etude de la connectivité cérébrale''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ------------------------- Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 20799231ac73837b51f5c0f56dcfaff69d678b6e 729 728 2016-10-06T13:59:02Z Noblet 4 /* Objectives */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> Le but est de développer des méthodes de traitement d’image pour l’étude du vivant à différentes échelles dans le cas de données pré-cliniques (imagerie du petit animal) et cliniques (imagerie de l’homme) : * échelle microscopique : reconstruction de macro-molécules en microscopie électronique, analyse d’images cellulaires avec la technologie FIB/SEM, ... * échelle mésoscopique : analyse de données histopathologiques, étude de tissus biologiques en imagerie polarimétrie, ... * échelle macroscopique : étude de la connectivité cérébrale, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Thématiques de recherche == Les activités de recherche du thème sont structurées suivant six axes : {| |- | '''Reconstruction de données'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Recalage''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Détection et prédiction de changements''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Comparaison de populations''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Etude de la connectivité cérébrale''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ------------------------- Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 8d0c4b99dae04f28205d98ea9d061bff42e6b2fd 730 729 2016-10-06T14:07:17Z Noblet 4 /* Objectives */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Thématiques de recherche == Les activités de recherche du thème sont structurées suivant six axes : {| |- | '''Reconstruction de données'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Recalage''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Détection et prédiction de changements''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Comparaison de populations''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Etude de la connectivité cérébrale''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ------------------------- Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 6be4739ef52f916e34c51cbfb47a034eb935d7cf 731 730 2016-10-06T14:11:44Z Noblet 4 /* Thématiques de recherche */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Brain connectivity study''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ------------------------- Work taking place in this research theme is devoted to the development of models, methods, algorithms, and computer codes for the processing of data stemming from biological and medical imaging devices. The research activity is a joint work between image processing scientists, physicians, neuroscientists, and biologists. The images of interest are generally massive, complex, and heterogeneous (vector-valued data, multisource data, multimodal data, multispectral data, temporal sequences). In medical image processing, we are mainly but not exclusively focused on brain imaging. We develop algorithms for image registration, image segmentation, change detection, longitudinal follow-up, and the creation and use of statistical atlases. The pipelines developed are used in a clinical setting, for diagnosis and therapeutical follow-up. They are also used in neurosciences, for the understanding of brain mechanisms, such as brain maturation, brain ageing, and consciousness. Biological imaging is a recent research axis. Work is oriented towards the study of the conformation of proteins, on the basis of data stemming from electronic microscopy and corresponding to 2D projections of proteins. Another aspect of our work is the follow-up of the organization of biological structures, such as cells or groups of cells. '''Main research axes:''' * deformation and registration of images * image segmentation * image reconstruction * creation and use of atlases * change detection and longitudinal follow-up * brain connectivity and brain networks study * study of 3D and 3D+t protein conformation * imaging-based analysis of biological structures '''Ongoing projects:''' ANR Vivabrain, ANR Rhodes '''Keywords:''' registration, segmentation, reconstruction, change detection, longitudinal follow-up, creation and use of atlases, extraction and analysis of anatomical and functional, normal and abnormal, information, protein conformation, biological structures. 7a6860929f96f019616472093d231856eee68f5d 732 731 2016-10-06T14:14:16Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Reconstruction_de_données]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Recalage]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Détection et prédiction de changements]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Comparaison de populations]] || '''Brain connectivity study''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Etude de la connectivité cérébrale]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 8d3fd9f111f683ea4d9b3e828b54dda3a3e55692 733 732 2016-10-06T14:26:29Z Noblet 4 /* Research topics */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Group_comparison]] || '''Brain connectivity study''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM : Brain connectivity study]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 5fb5197cbe0eb173e41c694d56009d206b0262a3 734 733 2016-10-06T14:28:14Z Noblet 4 /* Research topics */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity study''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity study]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> c80dab745ab0bf3570f102d3f17353ff0fb9cd16 735 734 2016-10-06T14:29:58Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> <br>[[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> <br> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 637f875deb6a342cee0f0ec0099da309897717c4 6 107 711 679 2016-09-17T02:28:52Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:MyCV16.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 719 711 2016-09-28T03:46:48Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:MyCV16.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 712 678 2016-09-17T02:28:59Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Before ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> Meanwhile, I kindly advise you to watch or download my CV. * '''[[media:MyCV16.pdf|CV]]''' : Last update Sep 16, 2016 -----------------------------<br /> 78fc1f9ccca3050a2952bbf0ffd41d7d0be6a37b 8 2 716 540 2016-09-26T12:36:27Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** http://dsim.unistra.fr| ANR DSIM ** API ICube|API ICube ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV ff8e9f8aa1abdd14c3f70f9b313e011ba25ebf60 100 111 717 2016-09-26T12:37:30Z Admin 1 Created page with "[[fr:Modification de Analyse statistique et problèmes inverses]]" wikitext text/x-wiki [[fr:Modification de Analyse statistique et problèmes inverses]] e82d7c8c46bbb48681a43b6ccfd2801ad71e80f1 718 717 2016-09-26T12:37:58Z Admin 1 wikitext text/x-wiki [[fr:Méthodes_en_inférence_bayésienne_et_analyse_statistique]] 4a228066537fcfdbf95218801b23481d57d01dd3 0 112 720 2016-09-29T12:37:16Z Tajine 11 Created page with "{| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]]..." wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /><br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /><br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /><br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. '''Illustration:''' <br /> <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> c132678f7cc5d00a1ce582e837cc22ec80386d2b 721 720 2016-09-29T12:38:17Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /><br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /><br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /><br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /><br /> '''Illustration:''' <br /> <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> f708b5dcc49074d54757087d60f76be64c88bb1a 722 721 2016-09-29T12:39:35Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /><br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /><br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /><br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /><br /> '''Illustration:''' <br /> <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> 2106c5c73b1611cfe69a529147450766b9a9afe4 723 722 2016-09-29T12:40:02Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /><br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /><br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /><br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /><br /> '''Illustration:''' <br /> <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> f708b5dcc49074d54757087d60f76be64c88bb1a 725 723 2016-09-29T14:49:48Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /><br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /><br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /><br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /><br /> '''Illustration:''' <br /> <gallery> Fichier:110x138.png|Label image Fichier:110x138ZcutVert.png|Thinning of the green zone Fichier:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] b1b48af8ffe5613c4ca301397ec67028f043d1e0 100 47 724 691 2016-09-29T14:48:05Z Tajine 11 anglais wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> '''Illustration :''' <br /> <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> [[fr:Géométrie discrète et morphologie mathématique]] 04d5b89a9f9b943132eae924fc5caad096c5ecb1 0 113 736 2016-10-06T15:30:52Z Noblet 4 Created page with "[[en:TIBM:_Data_reconstruction]] <table> <tr> <td> Cet axe de recherche concerne la reconstruction des images à partir de données brutes issues de modalités variées. Les..." wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> Cet axe de recherche concerne la reconstruction des images à partir de données brutes issues de modalités variées. Les différentes contributions dans ce domaine ont principalement été réalisées au travers du projet [[ERC FBrain]] pour la reconstruction d’IRM fœtales, de l’[http://rhodes.unistra.fr ANR Rhodes] pour la reconstruction tomographique tridimensionnelle de macromolécules en cryo-microscopie électronique (cryo-ME) et des travaux d’inversion de données issues d’imageurs polarimétriques. * La problématique principale rencontrée pour la reconstruction tomographique en cryo-ME est liée au fait que les angles de projections sont inconnus et que les images présentent un très faible rapport signal à bruit. Pour aborder ce problème, une méthode de reconstruction conjointe du volume et des angles de projections a été proposée [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], et des méthodes d’estimation des paramètres de projection basées sur des techniques de réduction de dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] ou sur les moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] ont été développées. * Concernant la reconstruction d’IRM fœtales, il s’agit, à partir d’un ensemble de coupes acquises avec des séquences 2D ultra-rapide, de reconstruire un volume IRM 3D haute résolution, tout en corrigeant les mouvements du fœtus ainsi que les artefacts en intensité, que ce soit en imagerie morphologique [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] ou en IRM de diffusion [https://icube-publis.unistra.fr/2-OKSD12 2-OKSD12], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * En imagerie polarimétrique, des méthodes originales d’inversion de données avec prise en compte de l’information spatiale ont été proposées [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15]. </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] e442d6786efe98a746e20e8549e34fa222975999 744 736 2016-10-07T13:22:47Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * La problématique principale rencontrée pour la reconstruction tomographique en cryo-ME est liée au fait que les angles de projections sont inconnus et que les images présentent un très faible rapport signal à bruit. Pour aborder ce problème, une méthode de reconstruction conjointe du volume et des angles de projections a été proposée [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], et des méthodes d’estimation des paramètres de projection basées sur des techniques de réduction de dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] ou sur les moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] ont été développées. * Concernant la reconstruction d’IRM fœtales, il s’agit, à partir d’un ensemble de coupes acquises avec des séquences 2D ultra-rapide, de reconstruire un volume IRM 3D haute résolution, tout en corrigeant les mouvements du fœtus ainsi que les artefacts en intensité, que ce soit en imagerie morphologique [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] ou en IRM de diffusion [https://icube-publis.unistra.fr/2-OKSD12 2-OKSD12], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * En imagerie polarimétrique, des méthodes originales d’inversion de données avec prise en compte de l’information spatiale ont été proposées [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15]. </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] c159c3fc65c65c1cfc78c05c6d1bf4e23d788719 745 744 2016-10-07T13:25:10Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [4-https://icube-publis.unistra.fr/4-FDNF13 FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [4-https://icube-publis.unistra.fr/4-PBMT15 PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concernant la reconstruction d’IRM fœtales, il s’agit, à partir d’un ensemble de coupes acquises avec des séquences 2D ultra-rapide, de reconstruire un volume IRM 3D haute résolution, tout en corrigeant les mouvements du fœtus ainsi que les artefacts en intensité, que ce soit en imagerie morphologique [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] ou en IRM de diffusion [https://icube-publis.unistra.fr/2-OKSD12 2-OKSD12], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * En imagerie polarimétrique, des méthodes originales d’inversion de données avec prise en compte de l’information spatiale ont été proposées [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15]. </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] 86cc9bb84efd461546ae62f5890d05c0338d6730 746 745 2016-10-07T13:27:17Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [4-https://icube-publis.unistra.fr/4-FDNF13 FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [4-https://icube-publis.unistra.fr/4-PBMT15 PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [2-https://icube-publis.unistra.fr/2-FSKC14 FSKC14]. * En imagerie polarimétrique, des méthodes originales d’inversion de données avec prise en compte de l’information spatiale ont été proposées [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15]. </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] 26dbe5d2e6242b22f667dc9480863f95c9ac9d72 747 746 2016-10-07T13:29:23Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * En imagerie polarimétrique, des méthodes originales d’inversion de données avec prise en compte de l’information spatiale ont été proposées [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15]. </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] 8d35476396db1101a764872192fb228f22df9e7c 748 747 2016-10-07T13:32:51Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Retour page TIBM]] 88b5f909dc0cf1474601670f06ea3eed593d0878 749 748 2016-10-07T13:33:35Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing main page]] d3b54da7cf1490fe35df59b4af6af29429e13de8 750 749 2016-10-07T13:34:24Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 9788c373517b90a6255cf85c4a061064f6603095 0 114 737 2016-10-06T15:33:33Z Noblet 4 Created page with "[[fr:TIBM_:_Segmentation]] <table> <tr> <td> Cet axe rassemble toutes les contributions qui ont pour objectifs l'extraction automatique de structures anatomiques ou fonctionn..." wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> Cet axe rassemble toutes les contributions qui ont pour objectifs l'extraction automatique de structures anatomiques ou fonctionnelles contenues dans des images biomédicales. * Une approche de segmentation multi-atlas basée sur de la fusion par patch a été proposée pour parcelliser le cortex ainsi que les structures profondes du cerveau [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * Dans le cadre de l’ [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], une méthode basée sur l’utilisation d’arbres de composantes (component-trees) a été mise en œuvre pour la segmentation du réseau vasculaire cérébral [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Des algorithmes spécifiques et originaux ont par ailleurs été développés dans le cadre du projet [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] pour la segmentation des tissus cérébraux en IRM fœtale [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.fr/2-PNRK11 2-PNRK11]. * Enfin, des approches markoviennes ont été mises en œuvre pour l’identification automatique de lésions de sclérose en plaques dans des séquences d’IRM multimodale [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] et temporelle [https://icube-publis.unistra.fr/4-LCA14 4-LCA14]. * Outre l’IRM cérébrale, d’autres contributions, basées sur une représentation en super-voxels de l’image, concernent la segmentation d’image scanner X, notamment afin de délimiter les vertèbres [https://icube-publis.unistra.fr/4-CRMC15 4-CRMC15] ou estimer le taux de nécrose de tumeurs hépatiques [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.fr/4-CRNH15 4-CRNH15]. * Une méthode de segmentation de données histopathologiques haute résolution reposant sur des descripteurs de texture et une classification supervisée a par ailleurs été proposée [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Biomedical_image_processing|→ Retour page TIBM]] 850187f3e06aa6634f0acda2b722211f86774bb7 751 737 2016-10-07T13:38:08Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> Cet axe rassemble toutes les contributions qui ont pour objectifs l'extraction automatique de structures anatomiques ou fonctionnelles contenues dans des images biomédicales. * Une approche de segmentation multi-atlas basée sur de la fusion par patch a été proposée pour parcelliser le cortex ainsi que les structures profondes du cerveau [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * Dans le cadre de l’ [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], une méthode basée sur l’utilisation d’arbres de composantes (component-trees) a été mise en œuvre pour la segmentation du réseau vasculaire cérébral [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Des algorithmes spécifiques et originaux ont par ailleurs été développés dans le cadre du projet [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] pour la segmentation des tissus cérébraux en IRM fœtale [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.fr/2-PNRK11 2-PNRK11]. * Enfin, des approches markoviennes ont été mises en œuvre pour l’identification automatique de lésions de sclérose en plaques dans des séquences d’IRM multimodale [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] et temporelle [https://icube-publis.unistra.fr/4-LCA14 4-LCA14]. * Outre l’IRM cérébrale, d’autres contributions, basées sur une représentation en super-voxels de l’image, concernent la segmentation d’image scanner X, notamment afin de délimiter les vertèbres [https://icube-publis.unistra.fr/4-CRMC15 4-CRMC15] ou estimer le taux de nécrose de tumeurs hépatiques [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.fr/4-CRNH15 4-CRNH15]. * Une méthode de segmentation de données histopathologiques haute résolution reposant sur des descripteurs de texture et une classification supervisée a par ailleurs été proposée [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 61bc30eb17254398a6b72e65ffe869a60645c68f 0 115 738 2016-10-06T15:40:08Z Noblet 4 Created page with "[[en:TIBM:_Registration]] <table> <tr> <td> Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra..." wikitext text/x-wiki [[en:TIBM:_Registration]] <table> <tr> <td> Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra-patient) ou déformable (inter-patient), mettre en jeu deux images ou davantage. * Ainsi, nous avons proposé une méthode de recalage déformable pour la mise en correspondance conjointe d’un ensemble d’images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], prérequis nécessaire pour conduire des études de populations. * Un algorithme de recalage d’images rétiniennes a par ailleurs été développé [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Des contributions ont été apportées pour le recalage non rigide [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] et la déformation [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11] d'images binaires sous contraintes topologiques. * Le problème de la déformation de champs de tenseurs d’ordre 4 a aussi été abordé [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], le tenseur d’ordre 4 étant un modèle mathématique utilisé en IRM de diffusion pour représenter les croisements de fibres. * L’estimation d’un recalage non rigide entre deux examens d’un même sujet est un outil intéressant pour la quantification de l’atrophie cérébrale au cours du temps. Dans ce contexte, une méthode d’estimation de l’incertitude sur la mesure de l’atrophie, formalisée dans un cadre bayésien et s’appliquant à toute méthode de mesure dense, a été proposée [https://icube-publis.unistra.fr/2-SRHR13 2-SRHR13].</td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Biomedical_image_processing|→ Retour page TIBM]] f162656923683ac08b367d39f4e4f47978e7651e 739 738 2016-10-07T13:05:37Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Registration]] <table> <tr> <td> Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra-patient) ou déformable (inter-patient), mettre en jeu deux images ou davantage. * Ainsi, nous avons proposé une méthode de recalage déformable pour la mise en correspondance conjointe d’un ensemble d’images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], prérequis nécessaire pour conduire des études de populations. * Un algorithme de recalage d’images rétiniennes a par ailleurs été développé [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Des contributions ont été apportées pour le recalage non rigide [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] et la déformation [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11] d'images binaires sous contraintes topologiques. * Le problème de la déformation de champs de tenseurs d’ordre 4 a aussi été abordé [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], le tenseur d’ordre 4 étant un modèle mathématique utilisé en IRM de diffusion pour représenter les croisements de fibres. * L’estimation d’un recalage non rigide entre deux examens d’un même sujet est un outil intéressant pour la quantification de l’atrophie cérébrale au cours du temps. Dans ce contexte, une méthode d’estimation de l’incertitude sur la mesure de l’atrophie, formalisée dans un cadre bayésien et s’appliquant à toute méthode de mesure dense, a été proposée [https://icube-publis.unistra.fr/2-SRHR13 2-SRHR13].</td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Biomedical_image_processing|→ Retour page TIBM]] e3256178f4113fd14fd325e67ab917c7d97d87a7 740 739 2016-10-07T13:06:50Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra-patient) ou déformable (inter-patient), mettre en jeu deux images ou davantage. * Ainsi, nous avons proposé une méthode de recalage déformable pour la mise en correspondance conjointe d’un ensemble d’images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], prérequis nécessaire pour conduire des études de populations. * Un algorithme de recalage d’images rétiniennes a par ailleurs été développé [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Des contributions ont été apportées pour le recalage non rigide [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] et la déformation [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11] d'images binaires sous contraintes topologiques. * Le problème de la déformation de champs de tenseurs d’ordre 4 a aussi été abordé [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], le tenseur d’ordre 4 étant un modèle mathématique utilisé en IRM de diffusion pour représenter les croisements de fibres. * L’estimation d’un recalage non rigide entre deux examens d’un même sujet est un outil intéressant pour la quantification de l’atrophie cérébrale au cours du temps. Dans ce contexte, une méthode d’estimation de l’incertitude sur la mesure de l’atrophie, formalisée dans un cadre bayésien et s’appliquant à toute méthode de mesure dense, a été proposée [https://icube-publis.unistra.fr/2-SRHR13 2-SRHR13].</td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Biomedical_image_processing|→ Retour page TIBM]] 66c436175c5f037fea6ecb7cc0c1d9dab84b8bdb 752 740 2016-10-07T13:39:27Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra-patient) ou déformable (inter-patient), mettre en jeu deux images ou davantage. * Ainsi, nous avons proposé une méthode de recalage déformable pour la mise en correspondance conjointe d’un ensemble d’images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], prérequis nécessaire pour conduire des études de populations. * Un algorithme de recalage d’images rétiniennes a par ailleurs été développé [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Des contributions ont été apportées pour le recalage non rigide [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] et la déformation [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11] d'images binaires sous contraintes topologiques. * Le problème de la déformation de champs de tenseurs d’ordre 4 a aussi été abordé [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], le tenseur d’ordre 4 étant un modèle mathématique utilisé en IRM de diffusion pour représenter les croisements de fibres. * L’estimation d’un recalage non rigide entre deux examens d’un même sujet est un outil intéressant pour la quantification de l’atrophie cérébrale au cours du temps. Dans ce contexte, une méthode d’estimation de l’incertitude sur la mesure de l’atrophie, formalisée dans un cadre bayésien et s’appliquant à toute méthode de mesure dense, a été proposée [https://icube-publis.unistra.fr/2-SRHR13 2-SRHR13].</td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] dfbf9cbd54699ebb3e10ebc58f5696b80aecd436 0 116 741 2016-10-07T13:09:49Z Noblet 4 Created page with "[[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> La détection automatique de changements est un outil aux potentialités importantes pour le suivi de..." wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> La détection automatique de changements est un outil aux potentialités importantes pour le suivi de pathologies évolutives. Il s’agit d’identifier des modifications au cours du temps entre deux examens d’un même sujet. Les enjeux des outils développés sont à la fois une meilleure prise en charge du patient (médecine personnalisée), que ce soit pour le diagnostic, le pronostic ou l’évaluation d’une réponse thérapeutique. Ainsi, des méthodes originales ont été développées pour le suivi longitudinal en IRM de diffusion (IRMd) : * en utilisant des tests statistiques adaptés à différentes représentations de la diffusion [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * en prenant en compte la nature définie positive des tenseurs de diffusion [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * ou la géométrie des faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. Par ailleurs, des travaux ont porté sur la modélisation temporelle de la maturation cérébrale [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] et de la gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] dans le cadre du projet [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Retour page TIBM]] 8ae19abc297d7a95ec1659ec0b0e80bb5c978bb3 0 117 742 2016-10-07T13:12:43Z Noblet 4 Created page with "[[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> La comparaison de populations consiste à mettre en évidence les différences entre deux groupes d’individus, av..." wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> La comparaison de populations consiste à mettre en évidence les différences entre deux groupes d’individus, avec notamment pour application l’élaboration de nouvelles connaissances en neurosciences. La problématique de la comparaison d'un individu avec un modèle de normalité (atlas) est également abordée, avec pour objectif d'identifier les zones pathologiques chez un sujet donné. * Ainsi, des travaux ont été menés pour démontrer l’intérêt des tests statistiques multivariés sur les tenseurs d’ordre 2, pour la comparaison de population en IRMd [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * Une approche combinant réduction de dimension et modélisation statistique dans l’espace réduit a été proposée pour l’analyse de tenseur d’ordre 4, avec pour application la comparaison d’un individu par rapport à une population et la comparaison de deux populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Enfin, une approche originale basée sur une modélisation par champ de Markov gaussien a été proposée pour comparer un individu à un modèle statistique de normalité avec une application à la détection d'anomalies du massif osseux facial [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Retour page TIBM]] dd7147632f7fa458656a80674c1556424440482a 0 118 743 2016-10-07T13:17:30Z Noblet 4 Created page with "[[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> L’étude de la connectivité anatomique et fonctionnelle cérébrale est l’une des problématiques m..." wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> L’étude de la connectivité anatomique et fonctionnelle cérébrale est l’une des problématiques majeures des neurosciences, avec pour objectif une meilleure compréhension de l’organisation et du fonctionnement cérébral, que ce soit chez les individus sains ou pathologiques. La connectivité anatomique est généralement étudiée grâce à des séquences d’IRMd. * Une nouvelle méthode de tractographie basée sur du filtrage particulaire et l’utilisation du modèle Q-ball a été développée pour extraire les principaux faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. La connectivité fonctionnelle est quant à elle généralement étudiée via des séquences d’IRM fonctionnelle (IRMf). * Une méthode de détection des réseaux fonctionnels à partir d’une parcellisation multi-niveaux du cerveau en régions fonctionnellement homogènes a été proposée [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Des outils issus de la théorie des graphes ont par ailleurs été mis en œuvre pour l’étude de la conscience chez des sujets comateux [https://icube-publis.unistra.fr/2-AKSR11 2-AKSR11], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * De nouveaux travaux ont démarré sur l’analyse de la dynamique de la connectivité fonctionnelle, et plus particulièrement sur les interactions entre réseaux cérébraux de repos à l’échelle du sujet. Ces réseaux de repos sont extraits par analyse en composantes indépendantes spatiale des données IRMf. Face au nombre élevé de composantes produites par sujet, une méthode de sélection automatique des composantes d’intérêt a été développée [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. Par ailleurs, des approches ont été proposées pour étudier les interactions de ces réseaux à partir d’une analyse par modèles de Markov cachés produit, couplés, ou couplés à seuil de la dynamique d’ensemble des corrélations entre leurs décours temporels [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], septembre 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], juin 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], décembre 2004 [[Medical_image_processing|→ Retour page TIBM]] 13a067ce6f6987f6182a6cfe97deb71f7f1eba11 0 116 753 741 2016-10-07T13:40:11Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> La détection automatique de changements est un outil aux potentialités importantes pour le suivi de pathologies évolutives. Il s’agit d’identifier des modifications au cours du temps entre deux examens d’un même sujet. Les enjeux des outils développés sont à la fois une meilleure prise en charge du patient (médecine personnalisée), que ce soit pour le diagnostic, le pronostic ou l’évaluation d’une réponse thérapeutique. Ainsi, des méthodes originales ont été développées pour le suivi longitudinal en IRM de diffusion (IRMd) : * en utilisant des tests statistiques adaptés à différentes représentations de la diffusion [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * en prenant en compte la nature définie positive des tenseurs de diffusion [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * ou la géométrie des faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. Par ailleurs, des travaux ont porté sur la modélisation temporelle de la maturation cérébrale [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] et de la gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] dans le cadre du projet [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] db1ad14dafca86b43b198390939a341c3e0c0134 766 753 2016-10-07T14:33:40Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool with great potential to monitor evolving pathologies. The aim is is to identify changes over time between two examinations of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences: * Using statistical tests adapted to different representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * Taking into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has focused on the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https: //icube-publis.unistra.fr/2-PRSK16 2-PRSK16] in the project [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 1bd50da4c7f2c8b4b026a55c6e99b75e4bf048e3 767 766 2016-10-07T14:34:04Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool with great potential to monitor evolving pathologies. The aim is is to identify changes over time between two examinations of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences: * Using statistical tests adapted to different representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * Taking into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has focused on the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] in the project [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 57de81d9db46317bb4300a5624f1a920cf9c7ab3 800 767 2016-10-10T09:19:30Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is is to identify changes over time between two examinations of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences: * Using statistical tests adapted to different representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * Taking into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has focused on the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] in the project [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 9bf4478a05170ef2cf260b1628d47577af77e191 801 800 2016-10-10T09:20:01Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is to identify changes over time between two exams of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences: * Using statistical tests adapted to different representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * Taking into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has focused on the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] in the project [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 2f97a2a73538d6d764cab2b0184ece6c06cdfefc 802 801 2016-10-10T09:22:46Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is to identify changes over time between two exams of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences, that: * use statistical tests adapted to several representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * take into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has focused on the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16] in the project [[ERC_FBrain | ERC FBrain]]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 77214adf5c1ac0ba63670acf63959244875948d3 0 117 754 742 2016-10-07T13:40:53Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> La comparaison de populations consiste à mettre en évidence les différences entre deux groupes d’individus, avec notamment pour application l’élaboration de nouvelles connaissances en neurosciences. La problématique de la comparaison d'un individu avec un modèle de normalité (atlas) est également abordée, avec pour objectif d'identifier les zones pathologiques chez un sujet donné. * Ainsi, des travaux ont été menés pour démontrer l’intérêt des tests statistiques multivariés sur les tenseurs d’ordre 2, pour la comparaison de population en IRMd [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * Une approche combinant réduction de dimension et modélisation statistique dans l’espace réduit a été proposée pour l’analyse de tenseur d’ordre 4, avec pour application la comparaison d’un individu par rapport à une population et la comparaison de deux populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Enfin, une approche originale basée sur une modélisation par champ de Markov gaussien a été proposée pour comparer un individu à un modèle statistique de normalité avec une application à la détection d'anomalies du massif osseux facial [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 2a2beeaf51ec3642d82cfbf37f3fef716bb32041 768 754 2016-10-07T15:49:52Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed with the aim to identify pathological areas in a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [ https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] e8acbbd4e2c957d01742c7d497406762bdd43aaa 769 768 2016-10-07T15:50:14Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed with the aim to identify pathological areas in a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [ https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] ab85575623022c0b1218585be344e538542add93 770 769 2016-10-07T15:50:54Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed with the aim to identify pathological areas in a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] be4b1548f0eb5be5d1c285856837d912ee2ee449 0 118 755 743 2016-10-07T13:41:26Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> L’étude de la connectivité anatomique et fonctionnelle cérébrale est l’une des problématiques majeures des neurosciences, avec pour objectif une meilleure compréhension de l’organisation et du fonctionnement cérébral, que ce soit chez les individus sains ou pathologiques. La connectivité anatomique est généralement étudiée grâce à des séquences d’IRMd. * Une nouvelle méthode de tractographie basée sur du filtrage particulaire et l’utilisation du modèle Q-ball a été développée pour extraire les principaux faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. La connectivité fonctionnelle est quant à elle généralement étudiée via des séquences d’IRM fonctionnelle (IRMf). * Une méthode de détection des réseaux fonctionnels à partir d’une parcellisation multi-niveaux du cerveau en régions fonctionnellement homogènes a été proposée [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Des outils issus de la théorie des graphes ont par ailleurs été mis en œuvre pour l’étude de la conscience chez des sujets comateux [https://icube-publis.unistra.fr/2-AKSR11 2-AKSR11], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * De nouveaux travaux ont démarré sur l’analyse de la dynamique de la connectivité fonctionnelle, et plus particulièrement sur les interactions entre réseaux cérébraux de repos à l’échelle du sujet. Ces réseaux de repos sont extraits par analyse en composantes indépendantes spatiale des données IRMf. Face au nombre élevé de composantes produites par sujet, une méthode de sélection automatique des composantes d’intérêt a été développée [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. Par ailleurs, des approches ont été proposées pour étudier les interactions de ces réseaux à partir d’une analyse par modèles de Markov cachés produit, couplés, ou couplés à seuil de la dynamique d’ensemble des corrélations entre leurs décours temporels [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== Thèses ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], septembre 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], juin 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], décembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] c6b59b526dc8081f098c69ea330065dd4a5f134a 771 755 2016-10-07T15:53:40Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues of neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased individuals. Anatomical connectivity is generally studied with diffusion MRI sequences. * A new method of tractography based on particle filtering and using the Q-ball model was developed to extract the main fiber bundles of the white matter [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is itself usually investigated via functional MRI sequences (fMRI). * A method of detecting functional networks from a brain multilevel fragmentation into functionally homogeneous areas was proposed [7 https://icube-publis.unistra.fr/7-KFTF11-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https : //icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New Work started on the analysis of the dynamics of functional connectivity, in particular on the interaction between brain networks scale to rest the subject. These networks are resting extracts analyzed by independent spatial components of fMRI data. The high number of components produced by subject, a method of automatic selection of the components of interest has been developed [4-https://icube-publis.unistra.fr/4-STRA15 STRA15]. In addition, approaches have been proposed to study the interactions of these networks from an analysis Hidden Markov Models product coupled, or the overall dynamic threshold coupled correlations between their time courses [https: / /icube-publis.unistra.fr/5-STRA15 5-STRA15], [4-https://icube-publis.unistra.fr/4-STAF16 STAF16]. L’étude de la connectivité anatomique et fonctionnelle cérébrale est l’une des problématiques majeures des neurosciences, avec pour objectif une meilleure compréhension de l’organisation et du fonctionnement cérébral, que ce soit chez les individus sains ou pathologiques. La connectivité anatomique est généralement étudiée grâce à des séquences d’IRMd. * Une nouvelle méthode de tractographie basée sur du filtrage particulaire et l’utilisation du modèle Q-ball a été développée pour extraire les principaux faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. La connectivité fonctionnelle est quant à elle généralement étudiée via des séquences d’IRM fonctionnelle (IRMf). * Une méthode de détection des réseaux fonctionnels à partir d’une parcellisation multi-niveaux du cerveau en régions fonctionnellement homogènes a été proposée [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Des outils issus de la théorie des graphes ont par ailleurs été mis en œuvre pour l’étude de la conscience chez des sujets comateux [https://icube-publis.unistra.fr/2-AKSR11 2-AKSR11], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * De nouveaux travaux ont démarré sur l’analyse de la dynamique de la connectivité fonctionnelle, et plus particulièrement sur les interactions entre réseaux cérébraux de repos à l’échelle du sujet. Ces réseaux de repos sont extraits par analyse en composantes indépendantes spatiale des données IRMf. Face au nombre élevé de composantes produites par sujet, une méthode de sélection automatique des composantes d’intérêt a été développée [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. Par ailleurs, des approches ont été proposées pour étudier les interactions de ces réseaux à partir d’une analyse par modèles de Markov cachés produit, couplés, ou couplés à seuil de la dynamique d’ensemble des corrélations entre leurs décours temporels [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], septembre 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], juin 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], décembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 452730782fa10c19f6fb68f51b86cbab27cb0d35 772 771 2016-10-07T15:55:31Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues of neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased individuals. Anatomical connectivity is generally studied with diffusion MRI sequences. * A new method of tractography based on particle filtering and using the Q-ball model was developed to extract the main fiber bundles of the white matter [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is usually investigated via functional MRI sequences (fMRI). * A method of detecting functional networks from a brain multilevel parcellation into functionally homogeneous areas was proposed [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https : //icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New Work started on the analysis of the dynamics of functional connectivity, in particular on the interaction between brain networks scale to rest the subject. These networks are resting extracts analyzed by independent spatial components of fMRI data. The high number of components produced by subject, a method of automatic selection of the components of interest has been developed [4-https://icube-publis.unistra.fr/4-STRA15 STRA15]. In addition, approaches have been proposed to study the interactions of these networks from an analysis Hidden Markov Models product coupled, or the overall dynamic threshold coupled correlations between their time courses [https: / /icube-publis.unistra.fr/5-STRA15 5-STRA15], [4-https://icube-publis.unistra.fr/4-STAF16 STAF16]. L’étude de la connectivité anatomique et fonctionnelle cérébrale est l’une des problématiques majeures des neurosciences, avec pour objectif une meilleure compréhension de l’organisation et du fonctionnement cérébral, que ce soit chez les individus sains ou pathologiques. La connectivité anatomique est généralement étudiée grâce à des séquences d’IRMd. * Une nouvelle méthode de tractographie basée sur du filtrage particulaire et l’utilisation du modèle Q-ball a été développée pour extraire les principaux faisceaux de la substance blanche [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. La connectivité fonctionnelle est quant à elle généralement étudiée via des séquences d’IRM fonctionnelle (IRMf). * Une méthode de détection des réseaux fonctionnels à partir d’une parcellisation multi-niveaux du cerveau en régions fonctionnellement homogènes a été proposée [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Des outils issus de la théorie des graphes ont par ailleurs été mis en œuvre pour l’étude de la conscience chez des sujets comateux [https://icube-publis.unistra.fr/2-AKSR11 2-AKSR11], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * De nouveaux travaux ont démarré sur l’analyse de la dynamique de la connectivité fonctionnelle, et plus particulièrement sur les interactions entre réseaux cérébraux de repos à l’échelle du sujet. Ces réseaux de repos sont extraits par analyse en composantes indépendantes spatiale des données IRMf. Face au nombre élevé de composantes produites par sujet, une méthode de sélection automatique des composantes d’intérêt a été développée [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. Par ailleurs, des approches ont été proposées pour étudier les interactions de ces réseaux à partir d’une analyse par modèles de Markov cachés produit, couplés, ou couplés à seuil de la dynamique d’ensemble des corrélations entre leurs décours temporels [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], septembre 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], juin 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], décembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 0b722c7c1fece14267f140ae367d22b99a753407 773 772 2016-10-07T16:00:47Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues of neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased individuals. Anatomical connectivity is generally studied with diffusion MRI sequences. * A new method of tractography based on particle filtering and using the Q-ball model was developed to extract the main fiber bundles of the white matter [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is usually investigated via functional MRI sequences (fMRI). * A method of detecting functional networks from a brain multilevel parcellation into functionally homogeneous areas was proposed [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New work started on the analysis of the dynamics of functional connectivity, in particular on the interaction between brain resting state networks at the scale of the subject. These resting state networks are extracted using spatial independent component analysis of fMRI data. To cope with the high number of components produced for each subject, a method for the automatic selection of the components of interest has been developed [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. In addition, approaches have been proposed to study the interactions of these networks using different Hidden Markov Models [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], septembre 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], juin 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], décembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 005d0102eaf2b73d85b28deb5580914f3d5c92bb 0 113 756 750 2016-10-07T13:42:17Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], en cours * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] e72484011527046a0a34e941b0ed3a1b7da358db 757 756 2016-10-07T13:43:02Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various modalities. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 03ec9e75190b1c2f1d42870002fea4cf21787884 779 757 2016-10-10T09:01:59Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [ANR http://rhodes.unistra.fr Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 36adf49c1a6418d4fb83cb503f640dfb5c288f1e 780 779 2016-10-10T09:02:38Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https: // icube-publis. unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] aacf4eb44eb16a6475c9d452f80d514029af0d24 781 780 2016-10-10T09:03:27Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction techniques dimension [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 017d0a3c61afb8d02cc297332e8c76461f85ff2a 782 781 2016-10-10T09:03:54Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] eab4d1126ba7d90e267baa9843f258e174f04688 783 782 2016-10-10T09:05:08Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https: / /icube-publis.unistra.fr/2-FHRL12 FHRL12-2], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr /1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 532484cd09ba7bb3672a59cf0f6ec63013750e5f 784 783 2016-10-10T09:05:57Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] c0e50cfaa8bd2dfa964db60fa60018a0be919710 785 784 2016-10-10T09:06:28Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], octobre 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 4c2ce73aa60bcbd2ff4fc926088a041bd2760b1e 786 785 2016-10-10T09:06:57Z Noblet 4 wikitext text/x-wiki [[en:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], october 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] b7abddbfa212835189ad281c1b7a8ee3525f7590 787 786 2016-10-10T09:07:23Z Noblet 4 wikitext text/x-wiki [[fr:TIBM:_Data_reconstruction]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], october 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 6ae5e137e8b280afb2bdc42796142c9f46c39a3e 788 787 2016-10-10T09:07:45Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Reconstruction_de_données]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], october 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 0c3c61a40827ce52e0445b08185d77e746953a90 0 114 758 751 2016-10-07T13:51:07Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivabrain ANR], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https : //icube-publis.unistra.fr/2-RHS11 RHS11-2], [2-https://icube-publis.unistra.fr/2-CPHS11 CPHS11], [https: //icube-publis.unistra .com / 2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14-BCA14 2] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions, based on a representation in super-voxels of the image, image segmentation involve CT scan, especially to delineate the vertebrae [https: //icube-publis.unistra .com / 4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https: //icube-publis.unistra .com / 4-CRNH15 4-CRNH15]. * A segmentation method of high-resolution data based on histopathological texture descriptors and a supervised classification has also been proposed [4-https://icube-publis.unistra.fr/4-ANFF14 ANFF14]. * Une approche de segmentation multi-atlas basée sur de la fusion par patch a été proposée pour parcelliser le cortex ainsi que les structures profondes du cerveau [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * Dans le cadre de l’ [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], une méthode basée sur l’utilisation d’arbres de composantes (component-trees) a été mise en œuvre pour la segmentation du réseau vasculaire cérébral [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Des algorithmes spécifiques et originaux ont par ailleurs été développés dans le cadre du projet [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] pour la segmentation des tissus cérébraux en IRM fœtale [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.fr/2-PNRK11 2-PNRK11]. * Enfin, des approches markoviennes ont été mises en œuvre pour l’identification automatique de lésions de sclérose en plaques dans des séquences d’IRM multimodale [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] et temporelle [https://icube-publis.unistra.fr/4-LCA14 4-LCA14]. * Outre l’IRM cérébrale, d’autres contributions, basées sur une représentation en super-voxels de l’image, concernent la segmentation d’image scanner X, notamment afin de délimiter les vertèbres [https://icube-publis.unistra.fr/4-CRMC15 4-CRMC15] ou estimer le taux de nécrose de tumeurs hépatiques [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.fr/4-CRNH15 4-CRNH15]. * Une méthode de segmentation de données histopathologiques haute résolution reposant sur des descripteurs de texture et une classification supervisée a par ailleurs été proposée [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] d4095fc48ed76ee7cb2fd70f05b3e30d2cbc5084 759 758 2016-10-07T13:55:55Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivabrain ANR], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https : //icube-publis.unistra.fr/2-RHS11 RHS11-2], [2-https://icube-publis.unistra.fr/2-CPHS11 CPHS11], [https: //icube-publis.unistra .com / 2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14-BCA14 2] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https: //icube-publis.unistra .com / 4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [4-https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] a0fa0e97e5df7c77ee6fde711d2c883b04969423 760 759 2016-10-07T13:57:31Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivabrain ANR], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [4-https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 7eb92b47e232ab0fbd424802b924dbf0f01e166d 761 760 2016-10-07T13:58:05Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivabrain ANR], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 309c45c933198a026f3a6cc293f3d738be9bcf3a 762 761 2016-10-07T13:58:27Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivabrain ANR], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 10bc57f331d2517afd57d63eb7a033bd4997e867 789 762 2016-10-10T09:08:49Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set upt to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 17133d3e6abd8ee66a348b4f4f1718487e739548 790 789 2016-10-10T09:09:06Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Specific and original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain FBrain ERC] for segmenting brain tissues from the fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 56c29c97210234cd7e22fa50eb80f9830063946d 791 790 2016-10-10T09:09:46Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] for segmenting brain tissues from fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions based on super-voxel decomposition involve CT scan images, especially to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] e3f2ffe9244aabcfa34a859dc4426cb060d4d90e 792 791 2016-10-10T09:11:18Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] for segmenting brain tissues from fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions involve CT scan images in order to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or to estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], octobre 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], juin 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], octobre 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], novembre 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], novembre 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], septembre 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], octobre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 6d2d0958d5958c5ba030b89bcf3fa2a3875922ab 793 792 2016-10-10T09:12:18Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both the cortex and the deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] for segmenting brain tissues from fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions involve CT scan images in order to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or to estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], october 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], june 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], october 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], november 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], november 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], september 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], october 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 87281226f2aafec547fd100751c5da2b93f1c938 794 793 2016-10-10T09:12:56Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both cortex and deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] for segmenting brain tissues from fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions involve CT scan images in order to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or to estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], october 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], june 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], october 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], november 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], november 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], september 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], october 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 5a0b04f1cc4b329c9baceb0926966cfe4bece4b2 0 115 763 752 2016-10-07T14:05:16Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) involving two or more images. * Thus, we have proposed a method for deformable registration for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * The estimate of non-rigid registration between two exams of the same subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method of estimation uncertainty on the extent of atrophy, formalized in a Bayesian framework and applicable to any method of dense measure was proposed [https: //icube-publis.unistra .com / 2-SRHR13 2-SRHR13]. Le recalage est une étape cruciale en traitement d’images médicales. Le recalage peut être mono- ou multimodal, rigide (intra-patient) ou déformable (inter-patient), mettre en jeu deux images ou davantage. * Ainsi, nous avons proposé une méthode de recalage déformable pour la mise en correspondance conjointe d’un ensemble d’images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], prérequis nécessaire pour conduire des études de populations. * Un algorithme de recalage d’images rétiniennes a par ailleurs été développé [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Des contributions ont été apportées pour le recalage non rigide [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] et la déformation [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11] d'images binaires sous contraintes topologiques. * Le problème de la déformation de champs de tenseurs d’ordre 4 a aussi été abordé [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], le tenseur d’ordre 4 étant un modèle mathématique utilisé en IRM de diffusion pour représenter les croisements de fibres. * L’estimation d’un recalage non rigide entre deux examens d’un même sujet est un outil intéressant pour la quantification de l’atrophie cérébrale au cours du temps. Dans ce contexte, une méthode d’estimation de l’incertitude sur la mesure de l’atrophie, formalisée dans un cadre bayésien et s’appliquant à toute méthode de mesure dense, a été proposée [https://icube-publis.unistra.fr/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] 303a9df7c673d68c822734864428963a6f4f2ee9 764 763 2016-10-07T14:09:13Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) involving two or more images. * Thus, we have proposed a method for deformable registration for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] 00dd98009eed117fbe2b684a3113e2c1cfebd21a 765 764 2016-10-07T14:10:30Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) involving two or more images. * Thus, we have proposed a method for deformable registration for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] 61cc3af91b2480b81fec79e90510a5de660fd06f 795 765 2016-10-10T09:15:21Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a method for deformable registration for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] d588108077678dcfd4de8ba2f78ab4f4636bff44 796 795 2016-10-10T09:16:06Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a deformable registration method for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] 606f3ab92c80bd6061f89eee4a7ba28a8e804d8e 797 796 2016-10-10T09:16:53Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a deformable registration method for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as for the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber intersections. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] d2ea22076f8c3e99bdb6ce85c1c1f2dddc600d80 798 797 2016-10-10T09:17:14Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a deformable registration method for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as for the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber crossings. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], septembre 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], janvier 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], mars 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], décembre 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], mai 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] fece20ebb0fcff71585db225482314a6dcc97e96 799 798 2016-10-10T09:17:58Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a deformable registration method for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as for the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber crossings. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], september 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], january 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], march 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], december 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], may 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] 4884bab9077eccfd79d95a0d84a5a432def3f9e2 100 56 774 735 2016-10-10T08:50:56Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 01629a7d78fb1e185560bbad1477b0cb394fb8b9 775 774 2016-10-10T08:55:05Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging system: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging): * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 418039ab7570075c19bf8d203a4b4b46e4cc505a 776 775 2016-10-10T08:57:36Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging system: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules in electron microscopy reconstruction, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological analysis of data, study of biological tissue imaging polarimetry, ... *macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 01714a372dc21712f7cddc11ca90b828d6019435 777 776 2016-10-10T08:59:28Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims to develop models, methods and algorithms for processing data from various medical and biological imaging system: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissue using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 27d140b90a6c148eaf3f848b749a8b1c9990d60d 778 777 2016-10-10T09:00:59Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging system: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissue using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 785ca3148142b5eea6696a2dbeb61e019e8edc4c 0 116 803 802 2016-10-10T09:24:10Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is to identify changes over time between two exams of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences, that: * use statistical tests adapted to several representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * take into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has been conducted in the project [[ERC_FBrain | ERC FBrain]] for the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], octobre 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], septembre 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], juin 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], décembre 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 337485a6f1110c4e763b0db5d2102de0bd45fee8 804 803 2016-10-10T09:24:38Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is to identify changes over time between two exams of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences, that: * use statistical tests adapted to several representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * take into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has been conducted in the project [[ERC_FBrain | ERC FBrain]] for the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], october 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], september 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], june 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], december 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] 6778b65abc19e044d7ed34d2310de216d2a105cb 814 804 2016-10-10T12:48:16Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Détection_et_prédiction_de_changements]] <table> <tr> <td> Automatic change detection is a tool of great interest for monitoring evolving pathologies. The aim is to identify changes over time between two exams of a given subject. This may allow a better care of the patient (personalized medicine), either for diagnosis, prognosis or evaluation of therapeutic response. Thus, novel methods have been developed to analyze longitudinal diffusion MRI sequences, that: * use statistical tests adapted to several representations of the diffusion process [https://icube-publis.unistra.fr/2-BNHR12 2-BNHR12] * take into account the positive definite property of diffusion tensor [https://icube-publis.unistra.fr/2-GNHB12 2-GNHB12] * or the geometry of the white matter fiber bundles [https://icube-publis.unistra.fr/2-GNBH13 2-GNBH13]. In addition, work has been conducted in the project [[ERC_FBrain | ERC FBrain]] for the temporal modeling of brain maturation [https://icube-publis.unistra.fr/5-PRSS12 5-PRSS12] and gyrification [https://icube-publis.unistra.fr/2-PRSK16 2-PRSK16]. </td> <td> [[File:Changement.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * C. Heimburger, [[Céline Heimburger|Evaluation précoce de la croissance tumorale des résidus post-chirurgicaux des glioblastomes par IRM-ITD.]], en cours * J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], october 2013 * A. Grigis, [https://tel.archives-ouvertes.fr/tel-00750933 Approches statistiques pour la détection de changements en IRM de diffusion. Application au suivi longitudinal de pathologies neurodégénératives], september 2012 * H. Boisgontier, [http://scd-theses.u-strasbg.fr/1875/ Détection automatique de changements en IRM de diffusion. Application à la sclérose en plaques], june 2010 * M. Bosc, [https://tel.archives-ouvertes.fr/tel-00005163/ Contribution à la détection de changements dans des séquences IRM 3D multimodales], december 2003 [[Medical_image_processing|→ Back to Biomedical image processing page]] fa696bbef26eb8f0f010cdff3a959b15963dcd36 0 117 805 770 2016-10-10T09:28:54Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed in order to identify pathological areas of a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], septembre 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], septembre 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], septembre 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], mars 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], septembre 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], octobre 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], septembre 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 484fee7b63eb08f452632f9750a1e6ee6a18095b 806 805 2016-10-10T09:29:55Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed in order to identify pathological areas of a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], september 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], september 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], september 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], march 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], september 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], october 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], september 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] bd15fae542631a215a1443c2c8791dd74f295c9b 815 806 2016-10-10T12:48:26Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Comparaison_de_populations]] <table> <tr> <td> Group comparison consists in highlighting the differences between two populations of individuals, with the objective to develop new knowledge in neuroscience. The problem of comparing an individual with a normal model (atlas) is also addressed in order to identify pathological areas of a given subject. * Thus, work was conducted to demonstrate the advantages of multivariate statistical tests on 2nd order tensor for group study in diffusion MRI [https://icube-publis.unistra.fr/2-BNHLxx 2-BNHLxx]. * An approach combining dimension reduction and statistical modeling in the reduced space was proposed for the analysis of 4th order tensor, with application to the comparison of an individual with a population and the comparison of two populations [https://icube-publis.unistra.fr/4-GRHK15 4-GRHK15]. * Finally, an original approach based on Gaussian Markov Random Field modeling has been proposed for comparing an individual to a normal statistical model with application to the detection of maxillofacial abnormalities [https://icube-publis.unistra.fr/2-Fais12 2-Fais12]. </td> <td> [[File:Populations.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * A. Bouchon, [[Alix Bouchon | Modèles de régression multivariés pour la comparaison de populations en IRM de diffusion]], september 2016 * T. Gkamas, [https://tel.archives-ouvertes.fr/tel-01341752 Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging], september 2015 * G. Sfikas, [https://tel.archives-ouvertes.fr/tel-00789793/ Modèles statistiques non linéaires pour l'analyse de formes. Application à l'imagerie cérébrale], september 2012 * A. Belghith, [https://tel.archives-ouvertes.fr/tel-00712070/ Indexation de spectres HSQC et d’images IRMf appliquée à la détection de bio-marqueurs], march 2012 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], september 2011 * M. Brucher, [http://scd-theses.u-strasbg.fr/1565/ Représentations compactes et apprentissage non supervisé de variétés non linéaires : application au traitement d’images], october 2008 * T. Vik, [http://scd-theses.u-strasbg.fr/881/ Modèles statistiques d'apparence non gaussiens. Application à la création d'un atlas probabiliste de perfusion cérébrale en imagerie médicale.], september 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 7d96174d5a30b1cc641cf2dcab6c950bf74fb931 0 118 807 773 2016-10-10T09:39:29Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues in neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased subjects. Anatomical connectivity is generally investigated using diffusion MRI sequences. * A new method of tractography based on particle filtering and relying on the Q-ball model was developed to extract the main white matter fiber bundles [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is usually investigated using functional MRI sequences (fMRI). * A method was proposed for detecting functional networks using a multilevel brain parcellation into functionally homogeneous areas [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New work started on the analysis of dynamic functional connectivity, in particular on the interaction between brain resting state networks at the subject scale. These resting state networks are extracted from fMRI data using spatial independent component analysis. To cope with the high number of components produced for each subject, a method for the automatic selection of the components of interest has been developed [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. In addition, approaches have been proposed to study the interactions of these networks using various Hidden Markov Models [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], september 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], october 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], september 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], june 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], december 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] ebd8f207ce7daeff1a17e9a37835152594ff0073 808 807 2016-10-10T09:40:05Z Noblet 4 wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues in neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased subjects. Anatomical connectivity is generally investigated using diffusion MRI sequences. * A new method of tractography based on particle filtering and relying on the Q-ball model was developed to extract the main white matter fiber bundles [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is usually investigated using functional MRI sequences (fMRI). * A method was proposed for detecting functional networks using a multilevel brain parcellation into functionally homogeneous areas [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New work started on the analysis of dynamic functional connectivity, in particular on the interaction between brain resting state networks at the subject scale. These resting state networks are extracted from fMRI data using spatial independent component analysis. To cope with the high number of components produced for each subject, a method for the automatic selection of the components of interest has been developed [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. In addition, approaches have been proposed to study the interactions of these networks using various Hidden Markov Models [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD thesis ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], september 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], october 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], september 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], june 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], december 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 0b528643364ffdbdabcaa30bbbc9290a487ef9af 816 808 2016-10-10T12:48:38Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Etude_de_la_connectivité_cérébrale]] <table> <tr> <td> The study of brain anatomical and functional connectivity is one of the major issues in neuroscience, aiming at better understanding the organization and functioning of the brain, whether in healthy or diseased subjects. Anatomical connectivity is generally investigated using diffusion MRI sequences. * A new method of tractography based on particle filtering and relying on the Q-ball model was developed to extract the main white matter fiber bundles [https://icube-publis.unistra.fr/2-PROS13 2-PROS13]. Functional connectivity is usually investigated using functional MRI sequences (fMRI). * A method was proposed for detecting functional networks using a multilevel brain parcellation into functionally homogeneous areas [https://icube-publis.unistra.fr/7-KFTF11 7-KFTF11]. * Tools from graph theory have also been implemented for the study of consciousness in comatose patients [https://icube-publis.unistra.fr/2-AKSR11 AKSR11-2], [https://icube-publis.unistra.fr/2-ADVR12 2-ADVR12]. * New work started on the analysis of dynamic functional connectivity, in particular on the interaction between brain resting state networks at the subject scale. These resting state networks are extracted from fMRI data using spatial independent component analysis. To cope with the high number of components produced for each subject, a method for the automatic selection of the components of interest has been developed [https://icube-publis.unistra.fr/4-STRA15 4-STRA15]. In addition, approaches have been proposed to study the interactions of these networks using various Hidden Markov Models [https://icube-publis.unistra.fr/5-STRA15 5-STRA15], [https://icube-publis.unistra.fr/4-STAF16 4-STAF16]. </td> <td> [[File:connectivite.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * M. Sourty, [[Marion_Sourty | Analyse de la dynamique temporelle et spatiale des réseaux cérébraux spontanés obtenus en imagerie par résonance magnétique fonctionnelle IRMf]], september 2016 *J. Pontabry, [https://tel.archives-ouvertes.fr/tel-01124178/ Construction d'atlas en IRM de diffusion : application à l'étude de la maturation cérébrale], october 2013 * F. Renard, [http://scd-theses.u-strasbg.fr/2461/ Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience], september 2011 * S. Karkar, [https://tel.archives-ouvertes.fr/tel-00652609/ Parcellisation et analyse multi-niveaux de données IRM fonctionnelles - application à l'étude des réseaux de connectivité cérébrale], june 2011 * S. Faisan, [http://scd-theses.u-strasbg.fr/886/ Analyse et fusion markovienne de séquences en imagerie 3D+t. Application à l'analyse de séquences d'images IRM fonctionnelles cérébrales.], december 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] 38a1c80705e66745e5d7abff1e34497abe06016d 100 56 809 778 2016-10-10T12:46:24Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging system: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissue using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> d1a99ece3a4e3cf309dbdb24d33796350b5be2c7 810 809 2016-10-10T12:47:21Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissue using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 8b42b76483c3965b869ba23acc51b51d1adcdeca 817 810 2016-10-10T12:51:08Z Noblet 4 /* Research topics */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissue using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 0fa3974a2aa3858960df2841d1e90536fb4f956e 818 817 2016-10-10T13:42:16Z Noblet 4 /* Objectives */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 0fa45dbd1a41530e9fc2f23fb09c6cbbad35d22b 0 113 811 788 2016-10-10T12:47:36Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Reconstruction_de_données]] <table> <tr> <td> This research topic concerns the reconstruction of images from raw data acquired with various imaging system. The contributions in this area were mainly realized through the project [[ERC FBrain]] for the reconstruction of fetal MRI, through the [http://rhodes.unistra.fr ANR Rhodes] for the three-dimensional tomographic reconstruction of macromolecules in cryo-electron microscopy (cryo-EM) and through works related to data inversion from polarimetric imaging. * The main problem encountered for tomographic reconstruction in cryo-EM is related to the fact that the projection angles are unknown and that images have a very low signal to noise ratio. To address this problem, a method for jointly estimating volume and angles of projections has been proposed [https://icube-publis.unistra.fr/4-FDNF13 4-FDNF13], [https://icube-publis.unistra.fr/4-BBF15 4-BBF15], [https://icube-publis.unistra.fr/4-PBMT15 4-PBMT15], and methods for estimating projection parameters based on reduction dimension techniques [https://icube-publis.unistra.fr/4-RBNM16 4-RBNM16] or moments [https://icube-publis.unistra.fr/2-PBMT16 2-PBMT16] were developed. * Concerning fetal MRI reconstruction, the objective is to reconstruct a 3D high resolution MRI volume from a set of images acquired with ultra-fast 2D sequences while correcting movements of the fetus as well as artifacts in intensity, either in morphological imaging [https://icube-publis.unistra.fr/2-KHRS11 2-KHRS11] or in diffusion weighted imaging [https://icube-publis.unistra.fr/2- OKSD12 OKSD12-2], [https://icube-publis.unistra.fr/2-FSKC14 2-FSKC14]. * In polarimetric imaging, original methods for data inversion that incorporate spatial information have been proposed [https://icube-publis.unistra.fr/2-SHZN11 2-SHZN11], [https://icube-publis.unistra.fr/2-FHRL12 2-FHRL12], [https://icube-publis.unistra.fr/2-FHSZ13 2-FHSZ13], [https://icube-publis.unistra.fr/1-FRHZ13 1-FRHZ13], [https://icube-publis.unistra.fr/1-FRHZ15 1-FRHZ15], [https://icube-publis.unistra.fr/2-KFHL15 2-KFHL15] . </td> <td> [[File:Reconstruction.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * Y. Michels, [[Yves Michels | Reconstruction tomographique d'objets déformables pour la cryo-microscopie électronique à particules isolées]], en cours * M. S. Phan, [[PHAN_Minh_Son|Reconstruction tomographique d’objets articulés à partir de projections non-orientées]], october 2016 * H. Rojbani, [[Hmida_Rojbani | Reconnaissance de forme dans des images volumiques en niveaux de gris: Application à l'imagerie biologique cell]], en cours * M. Karnoukian, [http://www.theses.fr/s95801 Reconstruction, fusion et analyse et d'images multi-modalités.Application au diagnostic et l'élevation des traitements du cancer], en cours [[Medical_image_processing|→ Back to Biomedical image processing page]] 1ff16ddd60db94ac9f74de18153d0dd960798ccc 0 114 812 794 2016-10-10T12:47:53Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Segmentation]] <table> <tr> <td> This research topic gathers all contributions related to the automatic extraction of anatomical or functional structures from biomedical images. * A multi-atlas segmentation framework based on patch fusion has been proposed for parcellating both cortex and deep brain structures [https://icube-publis.unistra.fr/2-RHS11 2-RHS11]. * In the context of the [http://icube-vivabrain.unistra.fr/index.php/Main_Page ANR Vivabrain], a method based on component-trees has been set up to segment the cerebral vascular tree [https://icube-publis.unistra.fr/2-DTNT13 2-DTNT13]. * Original algorithms have also been developed in the project [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC FBrain] for segmenting brain tissues from fetal MRI [https://icube-publis.unistra.fr/2-RHS11 2-RHS11], [https://icube-publis.unistra.fr/2-CPHS11 2-CPHS11], [https://icube-publis.unistra.com/2-PNRK11 2-PNRK11]. * Finally, Markov approaches have been implemented for the automatic identification of multiple sclerosis lesions in multimodal [https://icube-publis.unistra.fr/2-BCA14 2-BCA14] and temporal [https://icube-publis.unistra.fr/4-LCA14 4-LCA14] MRI sequences. * Besides MRI, other contributions involve CT scan images in order to delineate vertebrae [https://icube-publis.unistra.com/4-CRMC15 4-CRMC15] or to estimate the hepatic tumor necrosis rate [https://icube-publis.unistra.fr/4-CNRH16 4-CNRH16], [https://icube-publis.unistra.com/4-CRNH15 4-CRNH15]. * A method combining texture descriptors and a supervised classification scheme has also been proposed for segmenting high-resolution histopathological data [https://icube-publis.unistra.fr/4-ANFF14 4-ANFF14]. </td> <td> [[File:segmentation.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * T. Kensicher, [http://www.theses.fr/s145927 Protocole d'extraction de caractéristiques dans une base de données de scanners angiographiques pour la prédiction de complications post-opérative après des opérations de type EVAR], en cours * A. Dufour, [https://tel.archives-ouvertes.fr/tel-01124175/ Segmentation et modélisation des structures vasculaires cérébrales en imagerie médicale 3D], october 2013 * B. Caldairou, [https://tel.archives-ouvertes.fr/tel-00747860 Contribution à la segmentation des structures cérébrales en IRM foetale], june 2012 * B. Bouraoui, [http://scd-theses.u-strasbg.fr/1736/ Segmentation automatique de l'arbre coronarien à partir d'images angiographiques 3D+t de scanner], october 2009 * S. Bricq, [http://scd-theses.u-strasbg.fr/1651/ Segmentation d'images IRM anatomiques multimodales et détection de lésions de sclérose en plaques], november 2008 * J. Lamy, [http://scd-theses.u-strasbg.fr/1017/ Calcul du chemin central du côlon pour une analyse locale des pathologies], november 2005 * N. Passat, [http://scd-theses.u-strasbg.fr/1014/ Contribution à la segmentation des réseaux vasculaires cérébraux obtenus en IRM. Intégration de connaissance anatomique pour le guidage d'outils de morphologie mathématique], september 2005 * B. Naegel, [http://scd-theses.u-strasbg.fr/855/ Segmentation des organes de l'abdomen par des critères topologiques et morphologiques], october 2004 [[Medical_image_processing|→ Back to Biomedical image processing page]] a15e269d3858cf7f81750b5c637792e7dcdfea63 0 115 813 799 2016-10-10T12:48:03Z Noblet 4 /* PhD thesis */ wikitext text/x-wiki [[fr:TIBM_:_Recalage]] <table> <tr> <td> Registration is a crucial step in medical image processing. Registration may be mono- or multimodal, rigid (intra-patient) or deformable (inter-patient) and may involve two or more images. * Thus, we have proposed a deformable registration method for jointly mapping of a set of images [https://icube-publis.unistra.fr/2-NHHA12 2-NHHA12], which is a necessary prerequisite for conducting population studies. * A registration algorithm dedicated to retinal images has also been developed [https://icube-publis.unistra.fr/2-FLP11 2-FLP11]. * Contributions were made for the non-rigid registration of binary images [https://icube-publis.unistra.fr/2-GNKF12 2-GNKF12] as well as for the warping of binary images under topological constraints [https://icube-publis.unistra.fr/2-FPNC11 2-FPNC11]. * The problem of warping 4th order tensor fields was also tackled [https://icube-publis.unistra.fr/4-GRNH11 4-GRNH11], the 4th order tensor being a mathematical model used in diffusion MRI to represent fiber crossings. * Estimating non-rigid registration between two exams of a given subject is an interesting tool for the quantification of cerebral atrophy over time. In this context, a method was proposed for estimating the uncertainty in atrophy quantification using a Bayesian framework [https://icube-publis.unistra.com/2-SRHR13 2-SRHR13]. </td> <td> [[File:recalage.jpg|frameless|thumb| center|upright=2.4]] </td> </tr> </table> ==== PhD theses ==== * S. Sharma, [http://scd-theses.u-strasbg.fr/2426/ Estimation de l'atrophie cérébrale en IRM : application à la sclérose en plaques], september 2011 * A. Charnoz, [http://scd-theses.u-strasbg.fr/1295/ Recalage d'organes intra-patient à partir de l'étude de leur réseau vasculaire : application au foie], january 2007 * V. Noblet, [http://scd-theses.u-strasbg.fr/1127/ Recalage non rigide d'images cérébrales 3D avec contrainte de conservation de la topologie], march 2006 * O. Musse, [http://cat.inist.fr/?aModele=afficheN&cpsidt=202932 Contribution à la mise en correspondance non rigide d’images médicales : une approche paramétrique hiérarchique sous contraintes topologiques. Application au recalage déformable du cerveau en imagerie IRM], december 2000 * C. Nikou, [http://cat.inist.fr/?aModele=afficheN&cpsidt=195137 Contribution au recalage d’images médicales multimodales : approches par fonctions de similarité robustes et modèles déformables physiques sous contraintes statistiques], may 1999. [[Medical_image_processing|→ Back to Biomedical image processing page]] cd272ce6f6ca8939643f49322b8992b92e84dc3d 0 99 819 706 2016-10-13T12:22:38Z Noblet 4 Noblet moved page [[Yves MICHELS]] to [[Yves Michels]] wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 92c24b7a098ddef19e533b3e02928be0ba01172e 821 819 2016-10-13T12:32:25Z Yves.michels 49 papers submisson in the english page wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|thumb|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == <anyweb> https://icube-publis.unistra.fr/?author=Yves%20Michels </anyweb> '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] e67d6876bd3cd03aec9afd029e63e34a5b62f93b 0 119 820 2016-10-13T12:22:38Z Noblet 4 Noblet moved page [[Yves MICHELS]] to [[Yves Michels]] wikitext text/x-wiki #REDIRECT [[Yves Michels]] bc301e5d8920e94583ac0376ec5def7b5da6dce0 0 103 822 690 2016-10-25T09:06:24Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2016 - 2017 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics ==== 2015 - 2016 ==== :TPS 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. Journal paper '''submitted to''' International Journal of Computer Assisted Radiology and Surgery (IJCARS). '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy towards longer long-term dense motion estimation''. Journal paper '''accepted in''' Computer Vision and Image Understanding (CVIU). [http://www.sciencedirect.com/science/article/pii/S1077314216300340 Lien] Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper '''accepted in''' IEEE Transactions on image processing (TIP). [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Lien] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 6e1701eede5fe8c048fb21fbf9282a9db52e2f5d 823 822 2016-10-25T09:07:35Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2016 - 2017 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics ==== 2015 - 2016 ==== :TPS 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. International Journal of Computer Assisted Radiology and Surgery (IJCARS), 2016. [http://link.springer.com/article/10.1007/s11548-016-1493-1 Link] '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy towards longer long-term dense motion estimation''. Computer Vision and Image Understanding (CVIU), 2016. [http://www.sciencedirect.com/science/article/pii/S1077314216300340 Link] Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper '''accepted in''' IEEE Transactions on image processing (TIP), 2015. [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Link] ==== Conferences ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 91d2abfdca9670c5ee130b48fce9b67cb0afe5f6 0 6 824 709 2016-11-07T15:55:46Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TIC santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 8b3c9b9d7d50eb23395872b7f5775b9618f9db36 0 15 825 40 2016-11-08T13:13:02Z Heitz 30 wikitext text/x-wiki MIV is involved in the following transversal research programs of ICube: * [http://icube-web.unistra.fr/irmc/index.php/Accueil Imagerie et Robotique Médicale et Chirurgicale (IRMC)] * [http://icube-ips.unistra.fr/index.php/Accueil Imagerie Physique et Systèmes (ImPhySy)] [[en:Axes transverses]] 43c4e93de7680a3229404f36e505a7696e6b44ed 826 825 2016-11-08T13:15:22Z Heitz 30 wikitext text/x-wiki MIV is involved in the following transversal research programs of ICube: * [http://icube-web.unistra.fr/irmc/index.php/Accueil Imagerie et Robotique Médicale et Chirurgicale (IRMC)] * [http://icube-ips.unistra.fr/index.php/Accueil Imagerie Physique et Systèmes (ImPhySy)] [[fr:Axes transverses]] 7b602d39526ef9a68d14bc7525f7bc749fd855fa 0 4 827 667 2016-11-08T13:17:22Z Heitz 30 Replaced content with "<anyweb>http://icube-intranet.unistra.fr/fr/directory/trombi/miv</anyweb>" wikitext text/x-wiki <anyweb>http://icube-intranet.unistra.fr/fr/directory/trombi/miv</anyweb> eb308f87264f6d68a92bc2a6db7d3920fe117c49 0 3 828 668 2016-11-08T13:29:25Z Heitz 30 wikitext text/x-wiki [[Fichier:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 134e271b6396ba58142e86591a509c672b1229bc 829 828 2016-11-08T13:42:25Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Statistical analysis and inverse problems]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] acb74ad812f46fc3a3945890f8891889a9b7ecab 830 829 2016-11-08T13:43:32Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' : travaux méthodologiques basés sur l’utilisation de l’outil statistique pour inférer l’analyse, le recalage, la segmentation, la détection, la classification ou la fusion de signaux, d’images, de données multivariées, en privilégiant la robustesse des méthodes, la rigueur des formalismes, le caractère générique des approches statistiques développée. * '''[[Discrete Geometry and Mathematical Morphology]]''' : development of discrete geometries and topological models suitable for image analysis and synthesis, and elaboration of new morphological operators for image processing. Our goal is to build a robust and powerful algorithmics in imaging and to develop purely discrete tools for studying differential, geometrical, topological and morphological properties of objects, for applications in the segmentation of structures. * '''[[Biomedical image processing]]''' : development of models, methods, and algorithms for the processing of data stemming for biological and medical imaging devices. <br> We focus specifically on image registration, image segmentation, data reconstruction, the creation and use of atlases, change detection, longitudinal follow-up, brain networks and connectivity, the study of protein conformation, the analysis of biological structures. * '''[[Probabilistic analysis for space & Earth observations]]''' : extraction de l'information pertinente à partir de masses de données hétérogènes issues de l'observation de la Terre ou de l'Univers avec un nombre de bandes spectrales et de capteurs disponibles en constante augmentation. Les modèles développés s'intéressent en particulier à la redondance et à la propagation de l’incertitude d'observations multivariées, hétérogènes et massives. * '''[[Metrology]]''' : développement de méthodes de comparaison d'images réelles et conceptuelles reposant sur une modélisation des applications (logiciels cognitifs) pour l’automatisation incluant une capacité d’auto-adaptation du déroulement d’une application, en particulier pour la métrologie dimensionnelle et la reconstruction 3D quantitative. Prise en compte de la propagation des erreurs et des effets d’illumination. '''Mots-clés''' : Acquisition, représentations, détection, segmentation, fusion, classification ; interprétation et exploitation d’images et de séquences d’images multisources, multimodales et multispectrales variées. Géométrie discrète, morphologie mathématique, tomographie discrète. Discrétisation des objets et des opérateurs. Q-convexité. Imagerie médicale. Modèles probabilistes, inférence bayésienne, modèles statistiques, apprentissage statistique, détection de changement. Vision par ordinateur, réalité virtuelle et/ou augmentée, traitement d’images, métrologie, contrôle qualité. [[fr:Accueil]] 5bcc9879e232924f4a71776a59088d55e3af6a21 831 830 2016-11-08T13:46:20Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' * '''[[Metrology]]''' [[fr:Accueil]] 8a37363d8dc5692d2e0d9bc31dcdb2c9b8a48745 832 831 2016-11-08T14:49:13Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' * '''[[Métrologie]]''' [[fr:Accueil]] 7ee12a4a600fdfb2040ab18ca4e374b544d5f6a8 833 832 2016-11-08T14:49:43Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' * '''[[Metrologie]]''' [[fr:Accueil]] bcd12ac3e67aeda440e6a422755edc1d27e7e643 834 833 2016-11-08T14:51:05Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' * '''[[Metrology]]''' [[fr:Accueil]] 8a37363d8dc5692d2e0d9bc31dcdb2c9b8a48745 0 120 835 2016-11-08T14:53:19Z Heitz 30 Created page with "* [[Ouvrages]] * [[Articles journaux ] Journals] * [[Conférences ]] * [[Thèses et HDR ]] * [[Toutes les publications ]]" wikitext text/x-wiki * [[Ouvrages]] * [[Articles journaux ] Journals] * [[Conférences ]] * [[Thèses et HDR ]] * [[Toutes les publications ]] 8a9be02685d129dd7026c36a10dc3ba62ee0c23d 836 835 2016-11-08T15:00:49Z Heitz 30 wikitext text/x-wiki * [[Books]] * [[Journals] * [[Conferences ]] * [[PhD Thesis and HDR ]] * [[All publications ]] 3c841e977bf885d1c7e40d7b3c9a053b35155740 837 836 2016-11-08T15:01:02Z Heitz 30 wikitext text/x-wiki * [[Books]] * [[Journals]] * [[Conferences ]] * [[PhD Thesis and HDR ]] * [[All publications ]] d9d83f1be59f439e5356fa9123a4b71369969031 0 121 838 2016-11-08T15:01:16Z Heitz 30 Created page with "<anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0<..." wikitext text/x-wiki <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&hide=0&hide=0</anyweb> 4d50a433b47f8e6c7d729434026730fa335823ac 0 122 839 2016-11-08T15:02:28Z Heitz 30 Created page with "<anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_books=true&hide=0&hide=0&hid..." wikitext text/x-wiki <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_books=true&hide=0&hide=0&hide=0</anyweb> ef0c14fb0e2faeeb55ff988d061d42d3febee042 840 839 2016-11-08T15:05:20Z Heitz 30 wikitext text/x-wiki <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_books=true&hide=0&hide=0&hide=0</anyweb> [[fr:Books]] 52364f799b2e8adab4b7d21404e6673270c1a924 841 840 2016-11-08T15:05:43Z Heitz 30 wikitext text/x-wiki <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_books=true&hide=0&hide=0&hide=0</anyweb> [[fr:Ouvrages]] 2e92d31ffdf97efd622cb1f7b75a7db7530bbd1c 0 123 842 2016-11-08T15:07:05Z Heitz 30 Created page with "<anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0&hid..." wikitext text/x-wiki <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&hide=0&hide=0&hide=0 </anyweb> [[fr:Conférences]] 2c1dc1bd2ae06262a6050751c3413bd15e6e66b7 0 124 843 2016-11-08T15:09:25Z Heitz 30 Created page with "<anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_thesis=true&hide=0&hide=0&h..." wikitext text/x-wiki <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_thesis=true&hide=0&hide=0&hide=0&hide=0 </anyweb> [[en:PhD Thèses et HDR]] e1f1933366bad13fc900acb21d6f6281946874de 844 843 2016-11-08T15:09:59Z Heitz 30 wikitext text/x-wiki <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_thesis=true&hide=0&hide=0&hide=0&hide=0 </anyweb> [[en:Thèses et HDR]] 9b2920b6e0aaf5db2dd3f75fe62abedb43ddb009 845 844 2016-11-08T15:10:49Z Heitz 30 wikitext text/x-wiki <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_thesis=true&hide=0&hide=0&hide=0&hide=0 </anyweb> [[fr:Thèses et HDR]] e291f4bf74918a67875cd16a0be09502d2f109df 0 125 846 2016-11-08T15:12:47Z Heitz 30 Created page with "<anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0&hide=0&hide..." wikitext text/x-wiki <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0&hide=0&hide=0&hide=0</anyweb> [[fr:Toutes les publications]] cbfc435b6917facdc106e7eea9e812d8fe3709c6 8 2 847 716 2016-11-14T09:39:39Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Projects ** ANR Dahlia|ANR Dahlia ** ANR Kidico |ANR Kidico ** ANR Vivabrain|ANR Vivabrain ** PEPS Tomomicro|PEPS Tomomicro ** http://dsim.unistra.fr| ANR DSIM ** API ICube|API ICube ** Previous projects| Previous projects * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 89b4798dec52a8694728cb1281e8ab4f8c2a744b 850 847 2016-11-15T15:25:57Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Platforms ** http://piiv.u-strasbg.fr/traitement-images/medipy/|Medipy ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV ea2e7746da03e23b75e9077307ed8fd60c65c0c1 0 126 848 2016-11-15T10:09:49Z Heitz 30 Created page with "* [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC Starting Grant Fbrain (2008-2013)] * [https://dahlia.oca.eu/foswiki ANR Dahlia] * [http://kidico.u-strasbg.fr/kidico..." wikitext text/x-wiki * [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC Starting Grant Fbrain (2008-2013)] * [https://dahlia.oca.eu/foswiki ANR Dahlia] * [http://kidico.u-strasbg.fr/kidico/index.php/Accueil ANR Kidico] * [http://icube-miv.unistra.fr/fr/index.php/ANR_Vivabrain ANR Vivabrain] * [http://dsim.unistra.fr/ ANR DSIM] * [http://rhodes.unistra.fr/ ANR Rhodes] * [http://www.agence-nationale-recherche.fr/?Projet=ANR-12-MONU-0001 ANR Coclico] * [https://project.inria.fr/fli/ France Life Imaging] * [http://www.3d-surg.eu/ 3D-Surg (BPI France)] * [http://icube-miv.unistra.fr/fr/index.php/API_ICube Appel à projets interne ICube] * [http://icube-miv.unistra.fr/fr/index.php/Anciens_projets Former projects] [[fr:Projets]] 594a89dd82bcf62946145c466b40663166b3c3c5 849 848 2016-11-15T10:11:38Z Heitz 30 wikitext text/x-wiki * [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC Starting Grant Fbrain (2008-2013)] * [https://dahlia.oca.eu/foswiki ANR Dahlia] * [http://kidico.u-strasbg.fr/kidico/index.php/Accueil ANR Kidico] * [http://icube-miv.unistra.fr/fr/index.php/ANR_Vivabrain ANR Vivabrain] * [http://dsim.unistra.fr/ ANR DSIM] * [http://rhodes.unistra.fr/ ANR Rhodes] * [http://www.agence-nationale-recherche.fr/?Projet=ANR-12-MONU-0001 ANR Coclico] * [https://project.inria.fr/fli/ France Life Imaging] * [http://www.3d-surg.eu/ 3D-Surg (BPI France)] * [http://icube-miv.unistra.fr/fr/index.php/API_ICube ICube Call for Projects] * [http://icube-miv.unistra.fr/en/index.php/Previous_projects Former projects] [[fr:Projets]] c0c739061447031a3daa6875f64e12e775b88004 100 11 851 32 2016-11-16T17:22:19Z Heitz 30 wikitext text/x-wiki <table> <tr> <td>[http://www.cs.uh.edu/ University of Houston]</td> <td>Houston</td> <td>Etats-Unis</td> </tr><tr> <td>[https://www.sc.fsu.edu/ Université of Florida]</td> <td>Tallahassee</td> <td>Etats-Unis</td> </tr><tr> <td>[http://www.cuny.edu/index.html CUNY, The City University of New York]</td> <td>New-York</td> <td>Etats-Unis</td> </tr><tr> <td>[http://depts.washington.edu/bicg/home University of Washington]</td> <td>Seattle</td> <td>Etats-Unis</td> </tr><tr> <td>[http://www.cs.uoi.gr/index_en.html Université de Ioannina]</td> <td>Ioannina</td> <td>Grèce</td> </tr><tr> <td>[http://www.utm.rnu.tn/visirech/Fr/utm/fst/lipah/ LIPAH, Université de Tunis]</td> <td>Tunis</td> <td>Tunisie</td> </tr><tr> <td>[http://www-lfp.cea.fr/ CEA Laboratoire Francis Perrin]</td> <td>Gif-sur-Yvette</td> <td>France</td> </tr><tr> <td>[http://www.lnao.fr LNAO CEA NEUROSPIN]</td> <td>Saclay</td> <td>France</td> </tr><tr> <td>[https://www.creatis.insa-lyon.fr/ CREATIS]</td> <td>Lyon</td> <td>France</td> </tr><tr> <td>[http://www.lsis.org/ LSIS]</td> <td>Marseille</td> <td>France</td> </tr><tr> <td>[http://www.chu-besancon.fr CHU de Besançon, service de neurologie]</td> <td>Besançon</td> <td>France</td> </tr><tr> <td>[http://www.gipsa-lab.inpg.fr GIPSA lab]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://neurosciences.ujf-grenoble.fr GIN, Grenoble Institut des Neurosciences]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://www.esiee.fr/~info/a2si/gdi.html LIGM, Institut Gaspard Monge, Groupe Géométrie Discrète et Imagerie]</td> <td>Marne-la-Vallée</td> <td>France</td> </tr><tr> <td>[http://www.mips.crespim.uha.fr MIPS, Modélisation, Intelligence, Processus, Systèmes]</td> <td>Mulhouse</td> <td>France</td> </tr><tr> <td>[http://www.cran.uhp-nancy.fr/ CRAN, Centre de Recherche en Automatique de Nancy]</td> <td>Nancy</td> <td>France</td> </tr><tr> <td>[http://www.irisa.fr IRISA/INRIA Rennes]</td> <td>Rennes</td> <td>France</td> </tr><tr> <td>[http://xlim-sic.labo.univ-poitiers.fr/ XLIM]</td> <td>Poitiers</td> <td>France</td> </tr><tr> <td>[http://crestic.univ-reims.fr/groupe/SIC CReSTIC]</td> <td>Reims</td> <td>France</td> </tr><tr> <td>[http://lipade.mi.parisdescartes.fr LIPADE]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://www.oca.eu Observatoire de la côte d'Azur]</td> <td>Nice</td> <td>France</td> </tr><tr> <td>[http://www.obs-mip.fr Observatoire de Toulouse]</td> <td>Toulouse</td> <td>France</td> </tr><tr> <td>[http://www.obspm.fr Observatoire de Meudon]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://www-obs.univ-lyon1.fr CRAL, Observatoire de Lyon]</td> <td>Lyon</td> <td>France</td> </tr><tr> <td>[http://astro.u-strasbg.fr/observatoire Observatoire Astronomique de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://imaville.u-strasbg.fr Laboratoire Image, Ville et Environnement]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de psychiatrie]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de chirurgie orthopédique]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU de Strasbourg Hautepierre, service de réanimation]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>Institut d’anatomie normale de Strasbourg</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.igbmc.fr/ IGBMC, Institut de Génétique et de Biologie Moléculaire et Cellulaire]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.virtual-surg.com IRCAD, Institut de Recherche Contre les Cancers de l'Appareil Digestif]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.ihu-strasbourg.eu/ihu/ IHU de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www-irma.u-strasbg.fr IRMA, Institut de Recherche Mathématique Avancée]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.est.cerema.fr/era-27-imagerie-methodes-optiques-r578.html Laboratoire Régional des Ponts et Chaussées de Strasbourg CEREMA / ERA 27]</td> <td>Strasbourg</td> <td>France</td> </tr> </table> d7f55c693ce00b45bad02d57dd4696e77b12e763 6 107 852 719 2016-11-17T13:49:28Z Ahmad 38 Ahmad uploaded a new version of &quot;[[File:MyCV16.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 71 853 712 2016-11-17T13:49:41Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Before ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">My website is currently being updated</span>'''</big> <br /> <br /> Meanwhile, I kindly advise you to watch or download my CV. * '''[[media:MyCV16.pdf|CV]]''' : Last update Nov 16, 2016 -----------------------------<br /> d8247c9abe9bdcf024d62c91bccc2a6ce3d39080 0 103 854 823 2016-11-18T13:32:09Z Conze 46 wikitext text/x-wiki <big>'''Post-doctoral researcher'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0)3 68 85 44 13<br /> Bureau : '''B223''' <br /> Courriel : '''conze(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profilPH.jpg|frameless|center]] </td> </table> == Description of activities == ==== TheraHCC and 3D-Surg ==== My research activities related to TheraHCC and 3D-Surg include : :: - non-rigid multimodal (CT/MRI) abdominal image registration :: - liver tumor segmentation towards accurate HCC (hepato-cellular carcinoma) management == Teaching == ==== 2016 - 2017 ==== :[http://www.telecom-physique.fr/ TPS] 2A : Statistics ==== 2015 - 2016 ==== :TPS 2A : Statistics :TPS 1A : Numerical Analysis :TPS 1A : Probability and stochastic processes ==== 2014 - 2015 ==== :TPS 1A : Probability and stochastic processes == Publications == ==== Journals ==== '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Scale-adaptive supervoxel-based random forests for liver tumor segmentation in dynamic contrast-enhanced CT scans''. International Journal of Computer Assisted Radiology and Surgery (IJCARS), 2016. [http://link.springer.com/article/10.1007/s11548-016-1493-1 Link] '''Conze, P.-H.''', Robert, P., Crivelli, T., and Morin, L. ''Multi-reference combinatorial strategy towards longer long-term dense motion estimation''. Computer Vision and Image Understanding (CVIU), 2016. [http://www.sciencedirect.com/science/article/pii/S1077314216300340 Link] Crivelli, T., Fradet, M., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''Robust optical flow integration''. Journal paper '''accepted in''' IEEE Transactions on image processing (TIP), 2015. [http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6850051 Link] ==== Conferences ==== '''Conze, P.-H.''', Tilquin, F., Noblet, V., Rousseau, F., Heitz, F., Pessaux, P. ''Hierarchical Multi-Scale Supervoxel Matching Using Random Forests for Automatic Semi-Dense Abdominal Image Registration''. '''Submitted in''' IEEE International Symposium on Biomedical Imaging (ISBI), 2017. '''Conze, P.-H.''', Noblet, V., Rousseau, F., Heitz, F., Memeo, R., Pessaux, P. ''Random Forests on Hierarchical Multi-Scale Supervoxels for Liver Tumor Segmentation in Dynamic Contast-Enhanced CT Scans''. In IEEE International Symposium on Biomedical Imaging (ISBI), 2016, Prague, Czech Republic. [https://hal.archives-ouvertes.fr/hal-01284631/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Semi-automatic Liver Tumor Segmentation in Dynamic Contrast-Enhanced CT Scans using Random Forests and Supervoxels''. In MICCAI Workshop on Machine Learning in Medical Imaging (MLMI), 2015, Munich, Germany. [https://hal.archives-ouvertes.fr/hal-01214060/document PDF] '''Conze, P.-H.''', Rousseau, F., Noblet, V., Heitz, F., Memeo, R., Pessaux, P. ''Segmentation semi-automatique de tumeurs du foie en TDM dynamique pour l’estimation du taux de nécrose''. In Symposium on Signal and Image Processing (GRETSI), 2015, Lyon, France. [https://hal.archives-ouvertes.fr/hal-01214068/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Long-term Motion Estimation via Statistical Multi-Step Flow''. In International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISAPP), 2014, Lisbon, Portugal. [https://hal.archives-ouvertes.fr/hal-00910831/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Estimation de Mouvement Dense entre Images Distantes: Intégration Combinatoire Multi-Steps et Sélection Statistique''. In Symposium on Signal and Image Processing (GRETSI), 2013, Brest, France. [https://hal.archives-ouvertes.fr/hal-00859688/document PDF] '''Conze, P.-H.''', Crivelli, T., Robert, P. and Morin, L. ''Dense Motion Estimation between Distant Frames: Combinatorial Multi-Step Integration and Statistical Selection''. In IEEE International Conference on Image Processing (ICIP), 2013, Melbourne, Australia. [https://hal.archives-ouvertes.fr/hal-00868251/document PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P., Fradet, M. and Pérez, P. ''Multi-Step Flow Fusion: Towards Accurate and Dense Correspondences in Long Video Shots''. In British Machine Vision Conference (BMVC), 2012, University of Surrey, Guildford, UK. [http://www.bmva.org/bmvc/2012/BMVC/paper107/paper107.pdf PDF] Crivelli, T., '''Conze, P.-H.''', Robert, P. and Pérez, P. ''From Optical Flow to Dense Long Term Correspondences''. In IEEE International Conference on Image Processing (ICIP), 2012, Orlando, Florida, USA. [https://hal.archives-ouvertes.fr/hal-00787772/document PDF] '''Conze P.-H.''', Robert, P. and Morin, L. ''Objective View Synthesis Quality Assessment''. In SPIE IS&T Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00681304/document PDF] Robert, P., Thébault, C., Drazic, V. and '''Conze, P.-H.''' ''Disparity-compensated view synthesis for s3D content correction''. In SPIE IS&T Electronic Imaging Stereoscopic Displays and Applications (SPIE-SDA), 2012, San Francisco, California, USA. [https://hal.archives-ouvertes.fr/hal-00787332/document PDF] ==== Patents ==== '''Conze, P.-H.''', Robert, P., Crivelli, T. and Morin, L. Method for generating a motion field for a video sequence . Ref.WO 2014122131 A1, EP 201452164, 2014. [https://www.google.fr/patents/WO2014122131A1?cl=en&hl=fr&dq=WO+2014122131+A1&ei=Kz8RVZHOGtbYavOjgtAM Lien] Robert, P., Crivelli, T. and '''Conze, P.-H.''' Method and device for generating a motion field for a video sequence. Ref.WO 2013107833 A1, US 20140363053 A1, EP 2805306 A1, 2014. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20140363053.pdf Lien] Robert, P., Drazic, V., '''Conze, P.-H.''' and Viellard, T. Disparity maps in uniform areas. Ref. US 20130176300 A1, 2013. [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130176300.pdf Lien] Robert, P., Fradet, M. and '''Conze, P.-H.''' Method and apparatus for processing occlusions in motion estimation. Ref.US 20130148730 A1, EP 2602997 A1, 2013 [https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US20130148730.pdf Lien] Robert, P., Crivelli, T., '''Conze, P.-H.''', Fradet, M. and Pérez, P. Filtering a displacement field between video frames.Ref. WO 2013131819 A1, EP 2823467 A1, US 20150015792, 2013. [http://www.google.com/patents/US20150015792?hl=fr Lien] Fradet, M., '''Conze, P.-H.''', Llach, J. Procédé d’edition d’un plan dans une séquence vidéo. Ref. FR 2998399 A1, 2013. [http://worldwide.espacenet.com/espacenetDocument.pdf?flavour=trueFull&locale=en_V3&FT=D&date=&CC=FR&NR=2998399A1&KC=A1&popup=true Lien] <anyweb> http://icube-publis.unistra.fr/?author=conze&title=&team=&national=&project=&year1=1979&year2=2016&=#hideMenu </anyweb> 7fc4f7b1e327aac953d328e7e8ae0569638f127a 100 30 855 663 2016-11-18T13:48:32Z Noblet 4 wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[fr:Traitement_d%27images_astronomiques_et_de_télédétection]] 19b636340eddb2d90454733bb25a35c8e3489d18 870 855 2016-11-24T08:32:03Z Admin 1 Admin moved page [[Probabilistic analysis for space & Earth observations]] to [[Image Processing for Space and Earth Observations]] without leaving a redirect wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[fr:Traitement_d%27images_astronomiques_et_de_télédétection]] 19b636340eddb2d90454733bb25a35c8e3489d18 872 870 2016-11-24T08:32:51Z Admin 1 wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] e49d2e3bf31216bd7c03e19884e66ce402fa7664 873 872 2016-11-24T09:45:56Z Admin 1 Admin moved page [[Image Processing for Space and Earth Observations]] to [[Probabilistic analysis for space & Earth observations]] without leaving a redirect: revert wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] e49d2e3bf31216bd7c03e19884e66ce402fa7664 874 873 2016-11-24T09:47:22Z Admin 1 Admin moved page [[Probabilistic analysis for space & Earth observations]] to [[Image Processing for Space and Earth Observations]] wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret <anyweb> http://lsiit-miv.u-strasbg.fr/paseo/ </anyweb> [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] e49d2e3bf31216bd7c03e19884e66ce402fa7664 0 127 856 2016-11-18T15:52:32Z Soustelle 45 Created page with "[[File:Lucas_Soust.png|thumbnail]] <big>'''Doctorant'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br..." wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''Doctorant'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. "Submitted in" International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. "Submitted in" International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. "Submitted in" International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. 819d7979c1074e44184998a1ed07d48702fb4b76 857 856 2016-11-18T15:53:51Z Soustelle 45 wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''Doctorant'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. 6a02464974b3f1c90710b1e2047f48eb3e9c9eed 891 857 2017-01-12T16:42:51Z Soustelle 45 wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD Student'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. '''Submitted in''' International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. a78b0b41b455bd88ee8ed1eabee8c2dae71381f0 898 891 2017-01-16T12:22:51Z Soustelle 45 /* Conferences */ wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD Student'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. fd3abda550ebd0f2e88a19253aaed4338d3f3ec3 8 2 858 850 2016-11-18T16:23:36Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV c821393cbb5158c9a00227dd3126d94e27bb14c3 860 858 2016-11-21T15:22:45Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Probabilistic analysis for space & Earth observations|Probabilistic analysis for space & Earth observations ** Metrology|Metrology * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 4a4ed1c39f17828299ffda438174bb5b05b9f747 871 860 2016-11-24T08:32:28Z Admin 1 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations ** Metrology|Metrology * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** http://miv.u-strasbg.fr/foswiki/bin/view | Intranet MIV 7492e7e04b419bb15edcd513df698dc2939f1267 0 128 859 2016-11-21T13:20:47Z Bozhok 59 English version wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding: 1em; padding-right: 2em;" | ICube - MIV, TRIO <br /> 300 Bd Sébastien Brant <br /> BP 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Office: '''B237''' <br /> Email: '''bozhok (at) unistra (dot) fr''' |} </td> <td align=right> [[File:bozhok5.jpg|200px|frameless|center]] </td> </table> === PhD topic === Plenoptic tomography for 3D microscopy - device and algorithms Doctoral advisors : Jihad Zallat (PR, ICube TRIO) and [[Christian Heinrich]] (PR, ICube MIV) === Teaching === :1A : Numerical analysis :1A : Probability and stochastic processes :2A : Signal processing 1af7456ad9675ce9139a06bf7415d7383b84875a 878 859 2016-12-06T16:05:35Z Bozhok 59 + description en wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding: 1em; padding-right: 2em;" | ICube - MIV, TRIO <br /> 300 Bd Sébastien Brant <br /> BP 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Office: '''B237''' <br /> Email: '''bozhok (at) unistra (dot) fr''' |} </td> <td align=right> [[File:bozhok5.jpg|200px|frameless|center]] </td> </table> === PhD topic === '''Plenoptic tomography for 3D microscopy - device and algorithms''' Doctoral advisors : Jihad Zallat (PR, ICube TRIO) and [[Christian Heinrich]] (PR, ICube MIV) The general context of the thesis is the plenoptic tomography for microscopy. The application framework is biology and medicine, with a view to proposing original tools for the analysis of tissues. This research work is part of a currently ongoing project in the transverse axis "physical imaging and imaging systems" (Imagerie Physique et Systèmes - IPS) of the ICube laboratory. The application framework has also included this project in the axis "medical and surgical imaging and robotics" (Imagerie et Robotique Médicale et Chirurgicale - IRMC) of the ICube laboratory. === Teaching === :1A : Numerical analysis :1A : Probability and stochastic processes :2A : Signal processing 50a69de755a57b07690a6964e9fdf9aad7d25e75 879 878 2016-12-06T16:11:49Z Bozhok 59 max-width added en wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding: 1em; padding-right: 2em;" | ICube - MIV, TRIO <br /> 300 Bd Sébastien Brant <br /> BP 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Office: '''B237''' <br /> Email: '''bozhok (at) unistra (dot) fr''' |} </td> <td align=right> [[File:bozhok5.jpg|200px|frameless|center]] </td> </table> === PhD topic === '''Plenoptic tomography for 3D microscopy - device and algorithms''' Doctoral advisors : Jihad Zallat (PR, ICube TRIO) and [[Christian Heinrich]] (PR, ICube MIV) <div style="max-width:700pt;"> The general context of the thesis is the plenoptic tomography for microscopy. The application framework is biology and medicine, with a view to proposing original tools for the analysis of tissues. This research work is part of a currently ongoing project in the transverse axis "physical imaging and imaging systems" (Imagerie Physique et Systèmes - IPS) of the ICube laboratory. The application framework has also included this project in the axis "medical and surgical imaging and robotics" (Imagerie et Robotique Médicale et Chirurgicale - IRMC) of the ICube laboratory. </div> === Teaching === :1A : Numerical analysis :1A : Probability and stochastic processes :2A : Signal processing ebf4e7bca8766edc5718d71e958fffa6df2c1f75 0 129 861 2016-11-22T09:06:28Z Heitz 30 Created page with "[[File:Http://sertit.u-strasbg.fr/index en.htm|framed|SERTIT]]" wikitext text/x-wiki [[File:Http://sertit.u-strasbg.fr/index en.htm|framed|SERTIT]] 3634e2061c5fc33ea084f22ddf506c639457c472 862 861 2016-11-22T09:06:53Z Heitz 30 wikitext text/x-wiki [[File:http://sertit.u-strasbg.fr/index en.htm|framed|SERTIT]] f741c6fb2be8f924cd0aea3bc0bad9e6989ddb05 863 862 2016-11-22T09:07:38Z Heitz 30 wikitext text/x-wiki [http://sertit.u-strasbg.fr/index en.htm SERTIT] e0a72c71ad107efca992952306e6bda65d25d65a 864 863 2016-11-22T09:08:04Z Heitz 30 wikitext text/x-wiki [http://sertit.u-strasbg.fr/index_en.htm SERTIT] 2e40a5d72556be5553a221885fb6db09ee992cda 881 864 2016-12-08T07:54:41Z Heitz 30 wikitext text/x-wiki [http://sertit.u-strasbg.fr/index_en.htm Service Régional de Traitement d'Images et de Télédétection (SERTIT)] 7cd60adfd1109fefcdaf1855c0d67c88885f13ff 100 56 865 818 2016-11-23T11:30:01Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 85433f4ecd754c8d123f725aaca31fecbafad3f3 867 865 2016-11-23T16:41:22Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Home IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Home Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/eng/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 085903d1c57fdcde0ec5849f10d781b0ad24bd88 868 867 2016-11-23T16:43:32Z Noblet 4 /* Context and application areas */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 9a49d3032535d437a088b59d7125a75c937e401c 869 868 2016-11-23T16:44:13Z Noblet 4 /* Context and application areas */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Thibault Kensicher, Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> c46130cb247eb8d5f1f937702c506dca6bdddc77 876 869 2016-11-24T16:49:40Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> Anastasia Bozhok, Elena Chabran, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [[Pierre-Henri Conze]], [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 67cb775ecb4772ff5ea250319d07d3d277fc6723 877 876 2016-11-28T09:51:36Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> [[Anastasiia Bozhok]], Elena Chabran, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> d139c7c3c602e6ad8e2ce10bb6260ec0bb6edb76 0 130 866 2016-11-23T16:33:44Z Besnier 60 First version of my English homepage wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /><br /> Office : '''B221''' <br /> Mailbox : '''clement(dot)besnier(at)unistra.fr'''<br />Homepage : '''http://icube-miv.unistra.fr/en/index.php/Clément_Besnier'''<br /> |} </td> <td align=right> </td> </table> == Research activities == My PhD topic is "Robust segmentation of roads into speed limits using images". The basic idea is to classify road images according to their authorized speed limits taht road users might give to the roads. Images are considered as a part of sequences and this will be taken into account in our classification algorithm. Results will help evaluate incoherences between what drivers think the speed limits should be and what they actually are on the road signs. === Supervision === I've been since October 2016 a PhD student under the direction of [[Christophe Collet]] from the ICUBE lab and I am also supervised by Philippe Foucher from Cerema of Strasbourg. == Educational Background == === Engineering school === I was a student of Télécom SudParis, a French Engineering School. ==== 6-month Internship ==== I did my 6-month internship from February 2016 to August 2016 in Darmstadt, Germany, at UKP [https://www.ukp.tu-darmstadt.de/ukp-home/], a computational linguistics lab from Technische Universität Darmstadt. My internship was about summarization of live-blogs. First of all, I made a corpus of live-blogs in order to use it in a machine learning perspective. My supervisors were [https://www.aiphes.tu-darmstadt.de/de/aiphes/people/doctoral-researchers/pvs-avinesh/ Avinesh PVS] and [https://www.aiphes.tu-darmstadt.de/de/aiphes/people/doctoral-researchers/maxime-peyrard/ Maxime Peyrard]. ==== Engineering schol work ==== This work was about Part-of-speech tagging with help of Partially Pairwise Markov chains. I was supervised by [http://www-public.it-sudparis.eu/~monfrini/ Emmanuel Monfrini] and [[Jean-Baptiste Courbot]]. ==== Member of a robotics club ==== During my three years at Télécom SudParis, I was a member of [http://www.club-intech.fr/ Intech]. I was particularly interested in statistical filtering like (Kalman filter and unscented Kalman filter).in order to fiter results given by laser beacons and ultrasound beacons. == Supervision == * Group of first-year students from Télécom Physique Strasbourg which works on multi-agents programming applied to biological phenomena. * Practical Exercises in Matlab - Linear Algebra and Matrix Calculus, medical students (2016). 01d144d136e5e7792b3ea5b31aabbf846ecfe6c1 0 131 875 2016-11-24T09:47:22Z Admin 1 Admin moved page [[Probabilistic analysis for space & Earth observations]] to [[Image Processing for Space and Earth Observations]] wikitext text/x-wiki #REDIRECT [[Image Processing for Space and Earth Observations]] f87aca4d656f8645454ae21dad9e3067a2e35024 0 126 880 849 2016-12-08T07:51:21Z Heitz 30 wikitext text/x-wiki * [http://icube-miv.unistra.fr/fr/index.php/ERC_FBrain ERC Starting Grant Fbrain (2008-2013)] * [https://dahlia.oca.eu/foswiki ANR Dahlia] * [http://kidico.u-strasbg.fr/kidico/index.php/Accueil ANR Kidico] * [http://icube-miv.unistra.fr/fr/index.php/ANR_Vivabrain ANR Vivabrain] * [http://dsim.unistra.fr/ ANR DSIM] * [http://rhodes.unistra.fr/ ANR Rhodes] * [http://www.agence-nationale-recherche.fr/?Projet=ANR-12-MONU-0001 ANR Coclico] * [https://project.inria.fr/fli/ France Life Imaging] * [http://www.3d-surg.eu/ 3D-Surg (BPI France)] * [http://www.ircad.fr/wp-content/uploads/2014/09/2016-2017-IRCAD_RADIAL.pdf IHU Radial Project] * [http://icube-miv.unistra.fr/fr/index.php/API_ICube ICube Call for Projects] * [http://icube-miv.unistra.fr/en/index.php/Previous_projects Former projects] [[fr:Projets]] c240187781a7d84adbe9d006b65b7a088c01229a 0 12 882 536 2016-12-08T07:59:08Z Heitz 30 wikitext text/x-wiki == Intership available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] b7662dfe797ce900adc866a41196c4b35aea7caf 885 882 2016-12-19T10:35:31Z Noblet 4 wikitext text/x-wiki == Intership available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] 16f7842122a44aa66a90e885ed4dbbf91e5620d5 889 885 2017-01-09T15:45:54Z Noblet 4 wikitext text/x-wiki == Intership available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[Fichier:StagePourvu.jpg|frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] ac1035bdf7418876cab17e8d8e9fba5dea97c538 890 889 2017-01-09T15:46:40Z Noblet 4 wikitext text/x-wiki == Intership available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] 0af5c995c254af943ef4b07796c4a12b08b09568 0 90 883 688 2016-12-08T16:24:44Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Sources separation === Teaching === * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] d112fd5eff2c176ebeb3715858a472f9200ffda6 0 24 884 393 2016-12-12T11:02:37Z Cronse 12 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : cronse@unistra.fr<br> Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour (2013/10/10), H. Rojbani (2016/11/28). </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] </P> <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=ronse&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> fa51a3be31139837187948ab2d2637f7da5bc2be 0 14 886 616 2016-12-20T10:03:33Z Noblet 4 wikitext text/x-wiki [[fr:Post-doc]] '''Post-doc opportunities for 2017''' * 18 months Post-doc position associated to the project [http://www.3d-surg.eu 3D-Surg] : [[:Media:PostDoc-3Dsurg.pdf|Description]] '''Post-doc opportunities for 2016''' * 12 months Post-doc position associated to the ANR project [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivbrain] : [[:Media:PostDoc-Vivabrain.pdf|APPLICATION]] b7535e83653e1cc9ade5d649d5d7a1a961619451 0 81 887 617 2017-01-04T07:50:32Z Courbot 44 Transfert vers site externe, réduction du contenu. wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''B224''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://www.jb-courbot.fr/'''<br /> |} </td> <td align=right> [[File:profil_jbc.png|frameless|center]] </td> </table> 36e5b8ce77fb09a4e19d1826ffeb4b927f79648b 888 887 2017-01-04T07:51:00Z Courbot 44 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 3 68 85 44 84<br /> Fax : + 33 (0) 3 68 85 44 55<br /> Office: '''B224''' <br /> mailbox: '''jb(dot)courbott(at)unistra.fr'''<br />Homepage: '''http://www.jb-courbot.fr/'''<br /> |} </td> <td align=right> [[File:profil_jbc.png|frameless|center]] </td> </table> === Publications === <anyweb>http://icube-publis.unistra.fr/?author=Jean-Baptiste+Courbot&title=&team=&platform=&national=&project=&year1=&year2=&=#hideMenu</anyweb> 72d9fba0561d445240bea17fb100680d10ebeb73 100 47 892 724 2017-01-13T13:27:58Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> == Publications == [[fr:Géométrie discrète et morphologie mathématique]] be37a1d1d35f4d3b1ac232679f535227f6ac5fa3 893 892 2017-01-13T13:30:19Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective « theory » of measure and integration for discrete spaces, compatible with those of the « continuous » spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the « continuous » space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> == Publications == [[fr:Géométrie discrète et morphologie mathématique]] af0ca521d4de3a9c4c2e4bd2b29770b7cb96cb64 894 893 2017-01-13T13:34:08Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective « theory » of measure and integration for discrete spaces, compatible with those of the « continuous » spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the « continuous » space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] f80e01a1327d0ee1a5cad5cba814113128f3ec3d 895 894 2017-01-13T13:52:45Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 8c9206b0a948dcf5a31fccaf7a83e23235bf5830 899 895 2017-01-18T11:22:27Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> Fichier:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> Fichier:f3_length_error.png|Error Measures for Perimeter Estimation Fichier:T_S_P_C.png|Continuous tomography based on point sources Fichier:T_S_P_D.png|Discrete tomography based on point sources </gallery> '''Topological operations on label images :''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Images segmentation:''' <gallery> Fichier:Segmentation_coron_ronse_f.jpg|Segmentation de l'aorte et des artères coronaires </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> Fichier:baboon128.png|.... Fichier:baboon128_a81_SV.png|.... Fichier:l1.png|.... Fichier:l1_G.png|.... Fichier:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] f52fc019a275909bbd42d28432538ce29b49702c 0 37 896 600 2017-01-13T16:18:37Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Stéphane Kremer (ICube and Hôpitaux Universitaires de Strasbourg), and Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for biological image analysis. <br> Application to polarimetric imaging, for biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> Ongoing PhD thesis: A. Bozhok, ''Light field microscopy'', University of Strasbourg, 2016-2019. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingénierie pour le Vivant''). : Responsable de l'option ''Images, Signaux et Science des Données'' (ISSD) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Images et Données'' (ID), master 2 IRIV. : Co-responsable (avec Jihad Zallat, ICube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire ICube. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 d52f55f75e4ec03102236b60f75f88a14639d930 897 896 2017-01-13T16:22:58Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Stéphane Kremer (ICube and Hôpitaux Universitaires de Strasbourg), and Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for computational microscopy. <br> Application to polarimetric imaging and biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> ''Imagerie Physique et Systèmes'' (IPS) research axis. <br> Ongoing PhD thesis: A. Bozhok, ''Plenoptic tomography for 3D microscopy'', University of Strasbourg, 2016-2019. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingénierie pour le Vivant''). : Responsable de l'option ''Images, Signaux et Science des Données'' (ISSD) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Images et Données'' (ID), master 2 IRIV. : Co-responsable (avec Jihad Zallat, ICube-TRIO) de l'axe transverse ''Imagerie Physique et Systèmes'' (IPS) du laboratoire ICube. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 0b197858d53c34c0fee88978816c7357fcb010f5 6 132 900 2017-01-18T11:24:31Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 133 901 2017-01-18T11:24:54Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 134 902 2017-01-18T11:25:10Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 135 903 2017-01-18T11:25:26Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 136 904 2017-01-18T11:25:40Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 137 905 2017-01-18T11:25:58Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 138 906 2017-01-18T11:26:10Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 139 907 2017-01-18T11:26:21Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 140 908 2017-01-18T11:26:33Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 141 909 2017-01-18T11:26:45Z Tajine 11 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 100 47 910 899 2017-01-18T11:28:34Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources </gallery> '''Topological operations on label images :''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Images segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation de l'aorte et des artères coronaires </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 9970db1b71dd35c63094f03058d09d7f6d3f1ea0 911 910 2017-01-18T11:29:50Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]], [[PHAN Minh-Son | Minh-Son Phan]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources </gallery> '''Topological operations on label images :''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Images segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] e7d705dbba68488942e0a897a053a26089b0d62a 912 911 2017-01-18T11:36:19Z Baudrier 14 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources </gallery> '''Topological operations on label images :''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Images segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 770e47494083ac0c5bfc7a7a13df4efeebc2f1d5 913 912 2017-01-18T11:38:55Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 0406e9cc330a1ba8046253b2a6491b0241742b36 914 913 2017-01-18T12:53:56Z Tajine 11 /* Illustrations */ wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources Fichier:Q-conv.png|(a) Set non Z-Q-convex for the two point sources S1 et S2. (b) Set Z-Q-convex For any pair of point sources. (c) Continuous Q-convexe set for the two point sources S1 et S2. (d) Continuous non Q-convex for the two point sources S1 et S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 235497bc09bb2abc645bd719c53a8a1c614dde38 915 914 2017-01-18T12:54:29Z Tajine 11 /* Illustrations */ wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Set non Z-Q-convex for the two point sources S1 et S2. (b) Set Z-Q-convex For any pair of point sources. (c) Continuous Q-convexe set for the two point sources S1 et S2. (d) Continuous non Q-convex for the two point sources S1 et S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 31697eb5e5b3fca192390e8ddf8643a32f8fb0f4 916 915 2017-01-18T14:12:49Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Discrete set non Q-convex for the two point sources S1 et S2. (b) Discrete set Q-convex For any pair of point sources. (c) Continuous Q-convex set for the two point sources S1 et S2. (d) Continuous non Q-convex set for the two point sources S1 et S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] e5124e80664c4b36881a96c56f786211691eb598 917 916 2017-01-18T14:18:09Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 74bc49596488ab46bca5c96029f65f7da2be0490 918 917 2017-01-18T14:20:00Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:T_S_P_C.png|Continuous tomography based on point sources File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et à éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] e1b6acfdbfb67f50ee0a8cd06969f81a62b96e7c 928 918 2017-01-19T08:39:26Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''A compléter et à éditer par Benoît ... :''' <gallery> File:baboon128.png|.... File:baboon128_a81_SV.png|.... File:l1.png|.... File:l1_G.png|.... File:l1_V.png|.... </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] fe74909d3479713dc4200a5b809f5e52662be7ea 929 928 2017-01-19T08:59:54Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators :''' <gallery> Fichier:baboon128.png|Images simplification based on connected components graph Fichier:baboon128_a81_SV.png|Connected operator on a color image Fichier:l1_G.png|Connected components graph Fichier:l1_V.png|Lattice of the evaluations of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] c64f4bc645e52bed8ee916d641eaee6f9fcaffad 930 929 2017-01-19T09:00:55Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators :''' <gallery> File:baboon128.png|Images simplification based on connected components graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected components graph File:l1_V.png|Lattice of the evaluations of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 2fef5a5045f30a574fc47f2662b1737496d10a1d 931 930 2017-01-19T09:03:09Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators :''' <gallery> File:baboon128.png|Images simplification based on connected components graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected components graph File:l1_V.png|Valuations's Lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] ba0effa64d35e779f8052dc0e1cd99f28c81edf3 932 931 2017-01-19T12:57:56Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Images simplification based on connected components graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected components graph File:l1_V.png|Valuations's Lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 324dfebb837c9657df34a5d10d61f215e25f6f65 933 932 2017-01-19T13:02:24Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R2 File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Images simplification based on connected component graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected component graph File:l1_V.png|Valuation Lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 650ace8fe149c36b931948ce3d4347d877085f30 934 933 2017-01-19T13:07:15Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S1 and S2. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S1 and S2. (d) Non Q-convex continuous set for the two point sources S1 and S2. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Images simplification based on connected component graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected component graph File:l1_V.png|Valuation Lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 0582dbb9fa13a0ee7e4fbcfbc600d7a5c79afc80 935 934 2017-01-19T13:09:25Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Images simplification based on connected component graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Connected component graph File:l1_V.png|Valuation Lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 3e881a5d84f37239675a522d21f8e203cd25ac88 937 935 2017-01-26T14:04:50Z Naegel 6 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 6ed483d9b7492b27a3ea876d5575a52358cea79b 0 52 919 235 2017-01-18T14:23:48Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] Professor ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ 15213a2441a51b4a82f93f5ffd5e67005a94be94 920 919 2017-01-18T14:25:58Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ a8693beee03471f0e2dd93cb4548265f5ef6c5f9 921 920 2017-01-18T14:26:51Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] '''Professor'''<br><br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ <br> ce39c2d70e9679c578c458842403ba1c84ddebd2 922 921 2017-01-18T14:28:55Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] '''Professor'''<br><br> <table width=100%> <tr> <td> {| class="wikitable" ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ <br> |} </td> <td align=right> </td> </table> <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 368 854 490<br /> <br /> Office : '''C210''' <br /> Courriel : '''c.collet@unistra.fr'''<br /> |} </td> <td align=right> </td> </table> 41d10a3e27d5575d8fd76371f9573f68092a1915 923 922 2017-01-18T14:32:10Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] <big>'''Professor'''</big><br><br> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ <br> |} </td> <td align=right> </td> </table> 381c067755be3060a886d6c0745bef2e36ea3e39 924 923 2017-01-18T14:33:40Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ <br> |} </td> <td align=right> </td> </table> c474bcaf678def8a11843946541fcfef7544cbab 925 924 2017-01-18T14:35:36Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] <big>'''Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : tajine@unistra.fr <br> Url : http://dpt-info.u-strasbg.fr/~tajine/ <br> |} </td> <td align=right> </td> </table> ee113dfa1266aa0174ee3060ddc27b6f533278f8 926 925 2017-01-18T14:36:54Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] <big>'''Professor'''</big><br><br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : '''tajine@unistra.fr''' <br> Url : '''http://dpt-info.u-strasbg.fr/~tajine/''' 402ae1cc2a838693a6ad7ef08fe1850e82a63ea8 927 926 2017-01-18T14:37:14Z Tajine 11 wikitext text/x-wiki [[File:MohamedTajine.gif|thumb]] [[fr:Mohamed TAJINE]] <big>'''Professor'''</big><br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228b<br> Tel : 03.68.85.45.73<br> Fax : 03.68.85.44.55<br> Email : '''tajine@unistra.fr''' <br> Url : '''http://dpt-info.u-strasbg.fr/~tajine/''' cc3d68b82bec5b41944f48df68fb138e1b8f7f1d 0 5 936 346 2017-01-23T14:04:29Z Mazet 3 wikitext text/x-wiki <big>'''Associate Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 91<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C219''' <br /> E-mail: '''vincent(dot)mazet(at)unistra(dot)fr'''<br />Website: '''http://miv.u-strasbg.fr/mazet/mazet-en.html'''<br /> |} </td> <td align=right> [[File:VincentMazet.png|right|200px]] </td> </table> == Description of Activities == == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Vincent Mazet]] 74a9502c1d7d70a341575e94efc4a01dabba2b85 0 127 938 898 2017-02-03T10:25:23Z Soustelle 45 wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD Student'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode de suppression de la composante T2-longue basée sur la saturation et la diffusion en état stationnaire dans une séquence UTE-3D''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Quantification de la composante T2-courte de la myéline et de l’os cortical avec suppression du signal T2-long basée sur la diffusion en séquence UTE-3D''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode Inversion-non-Recovery (InoR) pour la suppression de la composante T2-longue en séquence UTE-3D pour l’imagerie T2-courte''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de résonance magnétique en biologie et médecine (SFRMBM), Grenoble, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. 541cf1e90e45d0df49f9c9034c67ba55d7aa4def 939 938 2017-02-03T10:26:25Z Soustelle 45 /* Conferences */ wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD Student'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Conferences ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode de suppression de la composante T2-longue basée sur la saturation et la diffusion en état stationnaire dans une séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Quantification de la composante T2-courte de la myéline et de l’os cortical avec suppression du signal T2-long basée sur la diffusion en séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode Inversion-non-Recovery (InoR) pour la suppression de la composante T2-longue en séquence UTE-3D pour l’imagerie T2-courte''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Grenoble, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. 0e4f0678f7b705a343efc231f0593779f9f3c2e8 0 90 940 883 2017-02-15T16:05:11Z Mortada 48 /* Teaching */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Sources separation === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2st year -S2) * Digital communication (2st year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] fb6c4e49d763a346cf6e4432554cdf0aaafbb259 944 940 2017-03-29T14:30:46Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Sources separation === Talks === === Communications === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2st year -S2) * Digital communication (2st year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] e9712410857f24c12bb32ccf2bd51184fd784d20 945 944 2017-03-29T14:31:09Z Mortada 48 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === research interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2st year -S2) * Digital communication (2st year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 1b5bc33bcdf7a736a479af53d772829294d44feb 946 945 2017-03-29T14:31:22Z Mortada 48 /* research interests */ wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Empty.png|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2st year -S2) * Digital communication (2st year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 4e16dd58939dae027a1e6803655294198eea79d4 0 71 941 853 2017-02-27T01:24:54Z Ahmad 38 wikitext text/x-wiki [[File:Ola.png|thumbnail]] '''<big>Postdoctoral Fellow</big>''' {| class="wikitable" |- |<span class="plainlinks">[http://www.polymtl.ca/liv4d/equipe/stagiaire.php Polytechnique de Montréal - LIV4D]</span><br /> Montreal, Canada<br /> <br /> Before ICube - MIV<br /> 300 bd Sébastien Brant <br /> Bp 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Email :''' ola.ahmad@polymtl.ca''' |} <br /> <big> '''<span style="color:red">Welcome to my webpage</span>'''</big> <br /> <br /> I'm currently a postdoctoral research fellow at Polytechnique Montreal.<br /> Please find more details in my CV. * '''[[media:MyCV16.pdf|CV]]''' : Last update Nov 16, 2016 -----------------------------<br /> 70b970df6d471ae62f1afd5d54e29b2e2f73b422 0 14 942 886 2017-02-27T11:37:56Z Noblet 4 wikitext text/x-wiki [[fr:Post-doc]] '''Post-doc opportunities for 2017''' * 18 months Post-doc position associated to the project [http://www.3d-surg.eu 3D-Surg] : [[:Media:PostDoc-3Dsurg.pdf|Description]] [FILLED] '''Post-doc opportunities for 2016''' * 12 months Post-doc position associated to the ANR project [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivbrain] : [[:Media:PostDoc-Vivabrain.pdf|APPLICATION]] 8b12f5206c9f03d8b6f4b229bb640e3024815c7e 0 6 943 824 2017-03-03T09:22:52Z Noblet 4 /* Teaching */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 83f886270aa89fa2c995eeebadb355a0efb25f3d 0 99 947 821 2017-03-31T10:22:23Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|thumb|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == <anyweb> https://icube-publis.unistra.fr/?author=Yves%20Michels </anyweb> '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] e1569d5fe5b27e6045c24892e0921ea44280fea7 948 947 2017-03-31T10:22:37Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == <anyweb> https://icube-publis.unistra.fr/?author=Yves%20Michels </anyweb> '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 2b3c91e23ffdef21702bcba4618773918299d105 949 948 2017-03-31T10:23:26Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|600px|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == <anyweb> https://icube-publis.unistra.fr/?author=Yves%20Michels </anyweb> '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] 6a17d8f31484c89dcb70f6bcbcdf8f12ae735f6a 950 949 2017-03-31T10:23:39Z Yves.michels 49 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /> Tel : + 33 (0) 6 77 07 12 76<br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''C226'''<br /> Courriel : '''yves.michels@centrale-marseille.fr'''<br /> |} </td> <td align=right> [[File:photoYvesMichels.jpg|frameless|center]] </td> </table> == Activities == === PhD === '''Tomographic reconstruction of deformable objects in the heterogeneous ab-initio case''' '''Financing''': [http://www.agence-nationale-recherche.fr/?Projet=ANR-14-CE27-0012 ANR RHODES]. '''Director''': [http://dpt-info.u-strasbg.fr/~tajine/ Mohamed TAJINE]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Loic_Mazo Loic MAZO]. '''Supervisor''': [http://icube-miv.unistra.fr/fr/index.php/Etienne_Baudrier Etienne BAUDRIER]. This PhD is a part of the [http://rhodes.unistra.fr/ RHODES] project which the goal is the improvement of the ''ab-initio'' tomographic reconstruction methods of deformable objects. This work is focussing on parameters estimations related to the orientation and the state of deformation of a cryo-electron microscopy dataset. The proposed methods are based on non linear dimension reduction and parameters estimation from a scatter plot in a low dimensional space. [[File:Shema_PageAcceuil_EN_copie.png|center|Principle of the estimation process.]] '''keys words ''' - ''dimension reduction, Isomap, Laplacian graph, Tomography, parameters estimation'' === Degree project === '''Video steganalysis based on motion vectors''' '''Supervisor''': [https://www.northumbria.ac.uk/about-us/our-staff/b/ahmed-bouridane/ Ahmed BOURIDANE]. Statistical analysis of the motions vectors used in the H.264 standard to detect steganographic videos. Development of new approach based on the morphology of the motion vector maps. This work were presented in the [http://icube-miv.unistra.fr/fr/index.php/S%C3%A9minaire_du_14/01/2016,_16h00 MIV seminar] on January 14th, 2016. [[File:CaracteristiquesStegaVideo.png|600px|center|Representation of the features used for the steganographic videos detection.]] '''Keys words''' - ''H.264, Stéganography, morphological mathematics, SVM'' === Academic project === '''High resolution STORM microscopy''' Development and implementation of a STORM reconstruction algorithm, in C language. [[File:STORM.png|600px|center|Images from the dataset on the left, Constructed image on the right.]] '''Keys words''' - ''STORM microscopy, Particles detection, Maximum Likelihood, Images matching'' == Publication == <anyweb> https://icube-publis.unistra.fr/?author=Yves%20Michels </anyweb> '''2015''' *M.Guillaume, Y.Michels, S.Jay [https://www.researchgate.net/publication/277749104_Joint_estimation_of_water_column_parameters_and_seabed_reflectance_combining_maximum_likelihood_and_unmixing_algorithm Joint estimation of water column parameters and seabed reflectance combining maximum likelihood and unmixing algorithm] 7th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS). '''June2015''' [[en:Yves MICHELS]] ddea2c5beed75ed004859ac888e6e44d2a5cc997 0 13 951 562 2017-04-10T14:03:22Z Baudrier 14 wikitext text/x-wiki '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 610cc766aceefc8190bfb19c229034fdb2fa2380 6 142 952 2017-04-10T14:05:18Z Baudrier 14 PhD thesis subject: Measurement theory and robust estimators in discrete geometry wikitext text/x-wiki PhD thesis subject: Measurement theory and robust estimators in discrete geometry f3d82880483121d1ae08a53d8d18315ef43bd00d 6 142 953 952 2017-04-10T14:06:49Z Baudrier 14 Baudrier uploaded a new version of &quot;[[File:2017sujetgeodisEng.pdf]]&quot; wikitext text/x-wiki PhD thesis subject: Measurement theory and robust estimators in discrete geometry f3d82880483121d1ae08a53d8d18315ef43bd00d 954 953 2017-04-11T12:13:25Z Baudrier 14 Baudrier uploaded a new version of &quot;[[File:2017sujetgeodisEng.pdf]]&quot; wikitext text/x-wiki PhD thesis subject: Measurement theory and robust estimators in discrete geometry f3d82880483121d1ae08a53d8d18315ef43bd00d 100 56 955 877 2017-05-07T19:14:44Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td> [[Anastasiia Bozhok]], Elena Chabran, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille], Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 3a165a090358c1259a3472028c0de5c0185d63c4 969 955 2017-10-10T14:30:37Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http : //med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 67c5420297300a738e90e352c5c5122c690596f3 999 969 2018-02-19T15:08:38Z Noblet 4 /* Context and application areas */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/Recherche/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 648450d41f576fabe99bd1337d301abda48a6de8 1000 999 2018-02-19T15:10:06Z Noblet 4 /* Context and application areas */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 2a7c107432072de5545a4e3264fc7d98f84cf5b6 6 143 956 2017-05-18T07:23:00Z Mortada 48 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 90 957 946 2017-05-18T07:23:25Z Mortada 48 wikitext text/x-wiki <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Hassan.jpg|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2st year -S2) * Digital communication (2st year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] e08653df13519c8fbf2de8b732dfce392be877c4 958 957 2017-05-18T10:17:07Z Mortada 48 /* 2016/2017 */ wikitext text/x-wiki <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Hassan.jpg|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 3457d9d6816b96756bd171448737c8aa480917d6 959 958 2017-05-29T13:55:53Z Mortada 48 wikitext text/x-wiki <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Hassan.jpg|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Séparation de sources retardées, paramétriques et corrélées'] === Publications === * H. Mortada, V. Mazet, C. Soussen, C. Collet. Separation of delayed parameterized sources. EUSIPCO, Aug 2017, Kos Island, Greece. === Teaching === ===== 2016/2017 ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 80bf0a01dd6737f7b272c251a093055d5390bb29 1001 959 2018-02-27T13:39:21Z Mortada 48 wikitext text/x-wiki <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Hassan.jpg|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet (ICUBE)]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen (L2S)]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet (ICUBE)]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Presentation'] === Publications === * H. Mortada, V. Mazet, C. Soussen, C. Collet. Separation of delayed parameterized sources. EUSIPCO, Aug 2017, Kos Island, Greece. === Teaching === ===== 2016/2017 (64h) ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) ===== 2017/2018 (64h) ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] 23efb771514a2aa74680da81ca5ab952ed09b3d1 0 144 960 2017-09-14T15:32:57Z Krahenbuhl 64 Première version anglaise de ma page perso wikitext text/x-wiki <big>'''Assistant teacher''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr''' <br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]] <br/> |} </td> <td align=right> </td> </table> == En bref == I'm assistant professor in computer sciences at University of Strasbourg.<br /> I teach in department of computer sciences at IUT Robert Schuman.<br /> I conduct my research in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 9d92f556692b1f9f3b9f6f37d06dfe635e6058a1 961 960 2017-09-14T15:34:03Z Krahenbuhl 64 Titre de la première section fr -> en wikitext text/x-wiki <big>'''Assistant teacher''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr''' <br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]] <br/> |} </td> <td align=right> </td> </table> == Briefly == I'm assistant professor in computer sciences at University of Strasbourg.<br /> I teach in department of computer sciences at IUT Robert Schuman.<br /> I conduct my research in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 10e53b6ff54624ec910d3da775b41cc4c8f979d8 962 961 2017-09-14T15:37:12Z Krahenbuhl 64 MAJ du numéro de téléphone wikitext text/x-wiki <big>'''Assistant teacher''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]]<br/> |} </td> <td align=right> </td> </table> == Briefly == I'm assistant professor in computer sciences at University of Strasbourg.<br /> I teach in department of computer sciences at IUT Robert Schuman.<br /> I conduct my research in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 192c6ef74ed6d134a399cde9b2af66528da73f55 964 962 2017-09-14T15:44:17Z Krahenbuhl 64 Ajout de la photo d'identité wikitext text/x-wiki <big>'''Assistant teacher''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]]<br/> |} </td> <td align=right> [[File:IdentiteAK.jpg|frameless|center]] </td> </table> == Briefly == I'm '''assistant professor''' in computer sciences at University of Strasbourg.<br /> I '''teach''' in department of computer sciences at IUT Robert Schuman.<br /> I conduct my '''research''' in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 780f52282cd1ac4c2ff8d3a542b4f80d0d7efa9c 965 964 2017-09-14T15:59:41Z Krahenbuhl 64 Correction du titre wikitext text/x-wiki <big>'''Assistant Professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]]<br/> |} </td> <td align=right> [[File:IdentiteAK.jpg|frameless|center]] </td> </table> == Briefly == I'm '''assistant professor''' in computer sciences at University of Strasbourg.<br /> I '''teach''' in department of computer sciences at IUT Robert Schuman.<br /> I conduct my '''research''' in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 77491f5c06058c04d3cf56f911c7e63a809f32d5 966 965 2017-09-14T16:08:37Z Krahenbuhl 64 Krahenbuhl moved page [[Adrien Krahenbuhl]] to [[Adrien Krähenbühl]]: Oubli des accents wikitext text/x-wiki <big>'''Assistant Professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: [[Adrien Krahenbuhl|http://adrien.krahenbuhl.fr]]<br/> |} </td> <td align=right> [[File:IdentiteAK.jpg|frameless|center]] </td> </table> == Briefly == I'm '''assistant professor''' in computer sciences at University of Strasbourg.<br /> I '''teach''' in department of computer sciences at IUT Robert Schuman.<br /> I conduct my '''research''' in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> 77491f5c06058c04d3cf56f911c7e63a809f32d5 968 966 2017-09-14T16:11:21Z Krahenbuhl 64 Modification du lien vers ma page perso externe wikitext text/x-wiki <big>'''Assistant Professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: http://adrien.krahenbuhl.fr<br/> |} </td> <td align=right> [[File:IdentiteAK.jpg|frameless|center]] </td> </table> == Briefly == I'm '''assistant professor''' in computer sciences at University of Strasbourg.<br /> I '''teach''' in department of computer sciences at IUT Robert Schuman.<br /> I conduct my '''research''' in the MIV team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> e09075df3575e762bb2f2c29aa72930f33766eda 6 145 963 2017-09-14T15:39:33Z Krahenbuhl 64 Photo de profil wikitext text/x-wiki Photo de profil 7415d477584c4c2fc1584b8d75fc94e90f0ca04f 0 146 967 2017-09-14T16:08:37Z Krahenbuhl 64 Krahenbuhl moved page [[Adrien Krahenbuhl]] to [[Adrien Krähenbühl]]: Oubli des accents wikitext text/x-wiki #REDIRECT [[Adrien Krähenbühl]] 4c20e8562ec92aded406179483c056235ad1421f 0 6 970 943 2017-10-16T19:50:46Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Développement d'un modèle informatique pour optimiser l'appariement donneur/receveur en transplantation hépatique", Thèse de Pietro Addeo (2017-), Co-direction avec Philippe Bachellier, encadrement [[Benoit Naegel]] et [[Adrien Krähenbühl]]. * "Nouvelles approches radiomiques pour la caractérisation de tumeurs hépatiques par analyse d’images", Thèse de Farid Ouhmich (2017-), Co-direction avec [[Fabrice Heitz]], encadrement Vincent Agnus. defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 4dea2bc959aeaf20e64ffaa67fed28beec060df9 971 970 2017-10-16T19:55:39Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 27589c0c6191869b91e177ab2d5db77e90b9899c 998 971 2018-01-25T15:01:38Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> c43f39a2bcf1c3f820330662a230ad30e3e8bfb0 1002 998 2018-02-28T20:58:02Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://icube-miv.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://icube-miv.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 2e1a3aaad4887ba4c781c3cea862baab1fb6f467 0 147 972 2017-10-20T22:11:21Z Bhanot 65 Created page with "{{subst:Template:PagePerso| prenom=Vincent|nom=Noblet|fonction=Ingenieur de Recherches|telephone=+ 33 (0) 7 83 47 28 11| bureau=B 221 | mail=bhanot(at)unistra(dot)fr | url = h..." wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 7 83 47 28 11<br /> Fax: {{{fax}}}<br /> Office: '''B 221''' <br /> E-mail: '''bhanot(at)unistra(dot)fr'''<br />Website: '''http://icube-miv.unistra.fr/fr/index.php/Argheesh_Bhanot'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 74a8322bb920d25f894c37aed8ab66cbaad619dc 973 972 2017-10-20T22:11:37Z Bhanot 65 wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 7 83 47 28 11<br /> Office: '''B 221''' <br /> E-mail: '''bhanot(at)unistra(dot)fr'''<br />Website: '''http://icube-miv.unistra.fr/fr/index.php/Argheesh_Bhanot'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <### anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 <### /anyweb> 40a1da087105d7fbfbd7a3e8cb6cc8267c30b5ed 6 148 974 2017-10-21T09:18:22Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 12 975 890 2017-10-21T09:20:36Z Naegel 6 wikitext text/x-wiki == Intership available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Intership available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] 2fdef6bc78e36c887c02913b512ba676f1baf08c 976 975 2017-10-21T09:20:52Z Naegel 6 wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Internship available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] 304bee121a8dc6a588b7109c47d14e25fae51e7f 977 976 2017-10-31T15:04:22Z Noblet 4 /* Internship available for 2018 */ wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Internship available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] d2857b2be3ebc6068a24baf23912ed8854dd7919 978 977 2017-10-31T15:08:00Z Noblet 4 wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Past Internship records == [[InternshipRecord |list of past internship]] {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:Stage]] 96d4fb373aaf9d109d49436635721482cb0ee9fe 980 978 2017-10-31T15:09:43Z Noblet 4 /* Past Internship records */ wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] b35c9d9c9295973246eaaba134eb1ec88a7dfa6c 985 980 2017-11-24T14:45:16Z Naegel 6 /* Internship available for 2018 */ wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 49f813b0d4074f4b373b7f9b608e7665bc7213f8 987 985 2017-11-27T09:30:26Z Naegel 6 wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |[[:Media:2017-DL-VascularSegmentation-en.pdf| Deep learning for the segmentation of vascular volumes from 3D MRA]] || 6 months || Master 2 / PFE ingénieur || available |- |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] f4aae6dedb68608a57f1d145dd57d92c0045c61e 989 987 2017-11-28T16:56:22Z Krahenbuhl 64 Add TUCAN internship wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |[[:Media:2017-DL-VascularSegmentation-en.pdf| Deep learning for the segmentation of vascular volumes from 3D MRA]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:2017_TUCAN_Sujet_M2.pdf| Extraction de la ligne centrale du réseau vasculaire cérébral en imagerie IRM ]] || 6 months || Master 2 / PFE ingénieur|| available |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 94798fb8ac0e32ce503ba3cef359ff55b162851f 990 989 2017-11-28T16:58:34Z Krahenbuhl 64 Title translation wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |[[:Media:2017-DL-VascularSegmentation-en.pdf| Deep learning for the segmentation of vascular volumes from 3D MRA]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:2017_TUCAN_Sujet_M2.pdf| Centerline extraction of cerebral vascular networks in MRI images ]] || 6 months || Master 2 / PFE ingénieur|| available |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 02686875d015a3383dee5fa48eca63bc070042ff 997 990 2018-01-15T16:18:27Z Krahenbuhl 64 Stage pourvu wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |[[:Media:2017-DL-VascularSegmentation-en.pdf| Deep learning for the segmentation of vascular volumes from 3D MRA]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:2017_TUCAN_Sujet_M2.pdf| Centerline extraction of cerebral vascular networks in MRI images ]] || 6 months || Master 2 / PFE ingénieur|| '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] ac04f5289fc76c8e63fc6a8aa4f5570474352d89 0 149 979 2017-10-31T15:09:12Z Noblet 4 Created page with " {| class="wikitable sortable" |- |:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tume..." wikitext text/x-wiki {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} 78cba96f8b42c30fb5ad11ddde52e41825ad9e2e 981 979 2017-10-31T15:10:51Z Noblet 4 wikitext text/x-wiki {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:HistoriqueStage]] 890004ef766f309505898d6f2886b1eb2eeabce4 982 981 2017-10-31T15:12:42Z Noblet 4 wikitext text/x-wiki == Records of past internship == Internship available for 2017 {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:HistoriqueStage]] b38a4591b07e3ca7b5c403256627b0a8b3242a7d 983 982 2017-10-31T15:13:05Z Noblet 4 /* Records of past internship */ wikitext text/x-wiki == Internship available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:HistoriqueStage]] 40e3e035458afb0d8e242dc71dfabc24598320d2 0 26 984 245 2017-11-01T21:24:14Z Mazo 15 wikitext text/x-wiki [[fr : Loïc Mazo]] <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> ( IUT : + 33 (0) 3 68 85 84 31 )<br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 0454749c4a3b461c1c9008e7c39c10d208f56f02 6 150 986 2017-11-27T09:29:59Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 988 986 2017-11-27T13:52:41Z Naegel 6 Naegel uploaded a new version of &quot;[[File:2017-DL-VascularSegmentation-en.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 17 991 558 2017-12-02T09:55:28Z Naegel 6 /* Description des activités */ wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br />Tel : + 33 (0) 3 68 85 48 56 <br /> Bureau : '''C230''' <br /> Courriel : '''b.naegel@unistra.fr'''<br /> [http://scholar.google.com/citations?user=yH72muEAAAAJ Google Scholar] [http://www.informatik.uni-trier.de/~ley/pers/hd/n/Naegel:Beno=icirc=t.html DBLP] <br/> |} </td> <td align=right> [[File:photo.jpg|frameless|center]] </td> </table> == Description des activités == <big>Research activities :</big> *Mathematical morphology **Hierarchical approaches (component-tree, component-graph, ...) *Medical image analysis <big>GitHub repositories :</big> *LibTIM : image processing library in C++ under GPL License **[https://github.com/bnaegel/libtim Github repository] *component-graph : construction of the component-graph and image filtering, by extension of the component-tree concept to multivaluate images **[https://github.com/bnaegel/component-graph Github repository] <big>Teaching</big> *Image processing : DUT in Computer Science, Master 2 ISI, Master 2 IRIV *Mobile development in Android : DUT in Computer Science, LP CDED (Bachelor level) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=naegel&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> c02e5549e4fb3d1300fe53e7bed1f08b35afd7bf 8 2 992 871 2017-12-14T08:12:48Z Pimmel 43 wikitext text/x-wiki * Team MIV ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations ** Metrology|Metrology * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet MIV ** https://miv-wiki.u-strasbg.fr/ | Intranet MIV 461451c7520534bbc7a5d21f8b1470cb02c24b9b 993 992 2017-12-21T10:06:28Z Pimmel 43 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations ** Metrology|Metrology * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS 6b94ff07531a250fa5148a421b244b452c87b561 994 993 2017-12-21T10:17:23Z Pimmel 43 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations * Platforms ** http://plateforme.icube.unistra.fr/imagines/index.php/Accueil|Imagines ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS 83edd00efa0e5d8681d3e446fe7dabbfa446af23 0 3 995 834 2017-12-21T10:17:31Z Pimmel 43 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> MIV resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. MIV adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' [[fr:Accueil]] 657029f008ea7b2856c862b6e32724363a67ea05 0 4 996 827 2018-01-10T16:19:33Z Admin 1 wikitext text/x-wiki <anyweb>http://icube-intranet.unistra.fr/fr/directory/trombi/images</anyweb> 524f82b3e194ce80631731a0b7fae5c077364445 100 56 1003 1000 2018-03-13T16:24:06Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> bf7d9f6d4ce9e6abafebb0e6af138afcac9e6295 1004 1003 2018-03-13T16:24:47Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> ff5c2d758c14ac00be24783de4eb447315797baa 1005 1004 2018-03-19T08:39:47Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> e7fa9d3dfb048778666a42cabd60e57bbf3e83bb 1009 1005 2018-05-15T13:53:13Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, [[Yves Michels]], Farid Oumich, [[Lucas Soustelle]], [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Cagdas Bilen, [https://ehsangolkar.joomla.com/ Ehsan Golkar]</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 1bfd5804a51417f417b0ae2db75f54e43a171131 1023 1009 2018-10-24T15:57:57Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 823f777c69ea773ac2c2cd864c79f8edb84138d7 1040 1023 2018-11-29T08:27:07Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Christian Ronse]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> cd5c16dc8ac1ee86c6e9d0e88d20fd7b6d2d5796 0 14 1006 942 2018-03-22T13:19:26Z Faisan 27 wikitext text/x-wiki [[fr:Post-doc]] '''Post-doc opportunities for 2018''' * 18 months Post-doc position : [[:Media:postdocStrasbourgfMRI.pdf|Description]] '''Post-doc opportunities for 2017''' * 18 months Post-doc position associated to the project [http://www.3d-surg.eu 3D-Surg] : [[:Media:PostDoc-3Dsurg.pdf|Description]] [FILLED] '''Post-doc opportunities for 2016''' * 12 months Post-doc position associated to the ANR project [http://icube-vivabrain.unistra.fr/index.php/Main_Page Vivbrain] : [[:Media:PostDoc-Vivabrain.pdf|APPLICATION]] c5f807534c5e076af9e7a6d9eaf62c32f2535d8b 0 6 1007 1002 2018-03-28T13:19:45Z Noblet 4 /* Teaching */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Statistical detection of longitudinal changes in anatomical and diffusion MRI. Application to the degenerative diseases of the central nervous system", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 0012b543d070a008f467d2d96a72094a465f7c2a 1008 1007 2018-05-14T07:13:55Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Co-head of image processing department of [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 08b1f851f424a36b91f4a16bce3ca9db86fd70c4 1012 1008 2018-06-08T14:00:37Z Noblet 4 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the MIV team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 8e39d52637df0a24bc579b4d03f6046b09995892 1018 1012 2018-09-11T13:05:08Z Noblet 4 /* Description of activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 812cdc0e58616cde835be9fd211835589f3598f0 1036 1018 2018-11-16T14:06:06Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 266b5547e29bcf152813d464ee0b35dff37bd7f2 1037 1036 2018-11-16T14:30:55Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-direction with Philippe Bachellier, supervisors: [[Benoit Naegel]] and [[Adrien Krähenbühl]]. * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 98facdaccef63f81f45b2fe526a9ba7e324c8862 1038 1037 2018-11-16T14:32:13Z Noblet 4 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> ca7e3b5b5883b55b18687b06c9a8f5336bb6b69e 0 127 1010 939 2018-06-04T15:56:33Z Soustelle 45 wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (since Oct. 2014) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Papers ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. '' A diffusion-based method for long-T 2 suppression in steady state sequences: Validation and application for 3D-UTE imaging. Magnetic Resonance in Medicine, 2018;80:548-559. ==== Conferences ==== '''Soustelle, L.''', Caldas de Araujo, E., Rousseau, F., Armspach, J-P., Loureiro de Sousa, P., ''On the use of frequency modulated pulses in sat-UTE''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Caldas de Araujo, E., Rousseau, F., Armspach, J-P., Loureiro de Sousa, P., ''Inversion-Recovery sat-UTE sequence for short-T2 structures positive contrast generation and quantification''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Antal, M-C., Lamy, J., Rousseau, F., Armspach, J-P, Loureiro de Sousa, P. ''A comparison of magnetization transfer, diffusion tensor imaging and ultrashort TE measurements in a murine model of demyelination''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018 (oral). '''Soustelle, L.''', Lamy, J., P., Rousseau, F., Armspach, J-P, Loureiro de Sousa. ''Inversion-Recovery UTE multispoke sequence: comparison of two excitation schemes''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode de suppression de la composante T2-longue basée sur la saturation et la diffusion en état stationnaire dans une séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Quantification de la composante T2-courte de la myéline et de l’os cortical avec suppression du signal T2-long basée sur la diffusion en séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode Inversion-non-Recovery (InoR) pour la suppression de la composante T2-longue en séquence UTE-3D pour l’imagerie T2-courte''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Grenoble, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. c66c0d3e4fb76a0f9a5804920a40305c1a6ab6f1 1011 1010 2018-06-04T15:57:35Z Soustelle 45 wikitext text/x-wiki [[File:Lucas_Soust.png|thumbnail]] <big>'''PhD'''</big> {| class="wikitable" |- | ICube - IMIS-MIV<br /> Institut de Physique Biologique <br /> 4, rue Kirschleger <br /> F - 67085 STRASBOURG Cedex - France <br /><br /> Tel : +33 (0) 3 68 85 40 34<br /> Bureau : '''113''' <br /> Courriel : '''lsoustelle@unistra.fr'''<br /> |} <br /> <br /> == Curriculum vitae == * PhD Candidate under the direction of [http://icube-imis.unistra.fr/index.php/Jean-Paul_Armspach Jean-Paul Armspach] (IMIS, ICube), [http://perso.telecom-bretagne.eu/francoisrousseau/ François Rousseau] (LaTIM, Télécom Bretagne) and [http://icube-imis.unistra.fr/index.php/Paulo_Loureiro_de_Sousa Paulo Loureiro de Sousa] (IMIS, ICube) - ICube, IMIS team, Strasbourg, France (Oct. 2014 - May 2018) ** Myelin Imaging in MRI using Ultra-Short Echo Time Sequences * Master Thesis under the direction of [https://www.irisa.fr/visages/members/christian.barillot/index Christian Barillot] (VisAGeS U746 Research Unit, INRIA-INSERM), [http://olivier.commowick.org/ Olivier Commowick] (VisAGeS U746 Research Unit, INRIA-INSERM) and [https://www.irisa.fr/visages/members/elise.bannier/index Élise Bannier] (VisAGeS U746 Research Unit, INRIA-INSERM) - INRIA-INSERM, VisAGeS U746 Research Unit, Rennes, France (Febr. 2014 - July 2014) ** Quantitative MRI Imaging: Quantification of Myelin Degeneration in Multiple Sclerosis * Biomedical Engineering degree, University of Technology of Compiègne (U.T.C.) (2011 - 2014) == Teaching == === 2016 - 2017: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Signal Processing * 2nd Semester: ::TPS 1A: Tutorial - Probability === 2015 - 2016: Télécom Physique Strasbourg (TPS) - Teaching Missions === [http://www.telecom-physique.fr/ Télécom Physique Strasbourg] * 1st Semester: ::FIP 1A/2A: Practical Work - 1D Signal Processing ::TPS 2A: Tutorial - Statistics * 2nd Semester: ::TPS 1A: Tutorial - Probability == Publications == ==== Papers ==== '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. '' A diffusion-based method for long-T 2 suppression in steady state sequences: Validation and application for 3D-UTE imaging. Magnetic Resonance in Medicine, 2018;80:548-559. ==== Conferences ==== '''Soustelle, L.''', Caldas de Araujo, E., Rousseau, F., Armspach, J-P., Loureiro de Sousa, P., ''On the use of frequency modulated pulses in sat-UTE''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Caldas de Araujo, E., Rousseau, F., Armspach, J-P., Loureiro de Sousa, P., ''Inversion-Recovery sat-UTE sequence for short-T2 structures positive contrast generation and quantification''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Antal, M-C., Lamy, J., Rousseau, F., Armspach, J-P, Loureiro de Sousa, P. ''A comparison of magnetization transfer, diffusion tensor imaging and ultrashort TE measurements in a murine model of demyelination''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018 (oral). '''Soustelle, L.''', Lamy, J., P., Rousseau, F., Armspach, J-P, Loureiro de Sousa. ''Inversion-Recovery UTE multispoke sequence: comparison of two excitation schemes''. In International Society for Magnetic Resonance in Medicine (ISMRM), Paris, France, 2018. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Long-T2 suppression based on saturation and diffusion in a steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Myelin and cortical bone short-T2 quantification using saturation and diffusion-based long-T2 suppression in steady-state 3D-UTE sequence''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Inversion-non-Recovery (InoR) method for long-T2 suppression in a steady-state 3D-UTE sequence for short-T2 imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Honolulu, Hawaii, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode de suppression de la composante T2-longue basée sur la saturation et la diffusion en état stationnaire dans une séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Lamy, J., Santin, M., Rousseau, F., Armspach, J-P. ''Quantification de la composante T2-courte de la myéline et de l’os cortical avec suppression du signal T2-long basée sur la diffusion en séquence UTE-3D''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Lamy, J., Loureiro de Sousa, P., Rousseau, F., Armspach, J-P. ''Méthode Inversion-non-Recovery (InoR) pour la suppression de la composante T2-longue en séquence UTE-3D pour l’imagerie T2-courte''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Bordeaux, France, 2017. '''Soustelle, L.''', Loureiro de Sousa, P., Koehler, S., Po, C., Rousseau, F., Armspach, J-P. ''Minimum-Time VERSE Pulse Correction for Slice Selectivity Improvement in 2D-UTE Imaging''. In International Society for Magnetic Resonance in Medicine (ISMRM), Singapore, Singapore, 2016. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification de la fraction d'eau piégée dans la myéline - Faisabilité et évaluation clinique en SEP''. In Société Française de Résonance Magnétique en Biologie et Médecine (SFRMBM), Grenoble, France, 2015. '''Soustelle, L.''', Commowick, O., Bannier, E., Barillot, C. ''Quantification of Myelin Degeneration in Multiple Sclerosis within Clinical Scan Times''. In International Society for Magnetic Resonance in Medicine (ISMRM), Toronto, Canada, 2015. e8999bbf54323765551527b50780f87cc8f541e0 0 55 1013 320 2018-06-18T08:06:15Z Baudrier 14 /* Internships and research projects */ wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big><br /> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. <br /> Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here]. Exemaple of an image from the database === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2018 || Cyrille MULLER|| research internship || M1 ||Parallélisation GPU du code de reconstruction tomographique conjointe |- | 2018 || Chouaib FELLAH || research internship|| M1 || Utilisation de DGtal pour l’évaluation des estimateurs avec le dual |- | 2018 || Etienne LE QUENTREC|| research internship || M2 || [http://images.icube.unistra.fr/fr/img_auth.php/a/a1/SujetM2_2018_BMT.pdf Comportement multirésolution des estimateurs de longueurs dans l’espace discret 2D ] |- | 2017 || Elyes ATEB|| academic internship || M2 || Utilisation de DGtal pour l’évaluation des estimateurs avec le dual |- | 2017 || Lucas LAZARE|| research internship || M1 || Reconstruction conjointe fréquentielle |- | 2017 || [https://fr.linkedin.com/in/leobouaillon/fr Léo BOUAILLON]|| research internship || M1 || Dual de l’ensemble des discrétisations à une transformation rigide près |- | 2017 ||[https://fr.linkedin.com/in/guillaume-decor-a02b7a150 Guillaume DECOR]|| TER || M1 ||Polygone et discrétisation |- | 2017 || Tarek AOULAD-MANSOUR|| TER || M1 ||Génération de toutes les discrétisations d'une courbe plane |- | 2016 || Cyrille MULLER|| research internship || L3 ||optimisation et amélioration du code de reconstruction tomographique conjointe |- | 2016 || Jean-Romain LUTTRINGER|| research internship || L3 ||parallélisation et portage sur grille HP du code de reconstruction tomographique conjointe |- | 2015 || Renan LAURETI|| research internship|| Magistère de math, 1A || variabilité par translation des discrétisations d’une courbe plane |- | 2015 || [https://fr.linkedin.com/in/leobouaillon/fr Léo BOUAILLON]|| research internship || L3 || interface pour la pré-image d'un segment discret |- | 2015 || Caroline RUDOLF|| research internship || L3 || Estimation de la longueur de toutes les discrétisations d'une courbe |- | 2015 || Sahar HAOUAS || research internship (PFE) || M2 || Reconstruction tomographique par Quadtree à partir de projections non-orientées |- | 2015 || Zied ZOUCH || research internship (PFE) || M2 || Estimation des orientations et des déformations à partir de projections tomographiques non-orientées |- | 2014 || Jérémy BERNARD || academic internship || M1 || Interface and generation of all the discretizations of a curve |- | 2014 || Maxime ABOVILLIER || research internship || M1 || tomographic reconstruction from non-oriented projections: speedup by multirésolution |- | 2014 || [https://edite-de-paris.fr/public/person/see/3373780 Bacem BEN CHEIKH] || research internship || M2 || Reconstruction tomographique à partir de projections non-orientées : cas continu 3D |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[fr:Etienne Baudrier]] ff9e47fd6ec34d33a9729b837c6da85366b6b458 0 128 1014 879 2018-06-23T13:35:56Z Bozhok 59 MIV->IMAGeS wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding: 1em; padding-right: 2em;" | ICube - IMAGeS, TRIO <br /> 300 Bd Sébastien Brant <br /> BP 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Office: '''B237''' <br /> Email: '''bozhok (at) unistra (dot) fr''' |} </td> <td align=right> [[File:bozhok5.jpg|200px|frameless|center]] </td> </table> === PhD topic === '''Plenoptic tomography for 3D microscopy - device and algorithms''' Doctoral advisors : Jihad Zallat (PR, ICube TRIO) and [[Christian Heinrich]] (PR, ICube IMAGeS) <div style="max-width:700pt;"> The general context of the thesis is the plenoptic tomography for microscopy. The application framework is biology and medicine, with a view to proposing original tools for the analysis of tissues. This research work is part of a currently ongoing project in the transverse axis "physical imaging and imaging systems" (Imagerie Physique et Systèmes - IPS) of the ICube laboratory. The application framework has also included this project in the axis "medical and surgical imaging and robotics" (Imagerie et Robotique Médicale et Chirurgicale - IRMC) of the ICube laboratory. </div> === Teaching === :1A : Numerical analysis :1A : Probability and stochastic processes :2A : Signal processing 87143da6e2a7c185f4a464ca4829e8287856779e 1015 1014 2018-06-23T13:37:06Z Bozhok 59 261-B wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding: 1em; padding-right: 2em;" | ICube - IMAGeS, TRIO <br /> 300 Bd Sébastien Brant <br /> BP 10413 <br /> 67412 Illkirch CEDEX - France <br /> <br /> Office: '''261-B''' <br /> Email: '''bozhok (at) unistra (dot) fr''' |} </td> <td align=right> [[File:bozhok5.jpg|200px|frameless|center]] </td> </table> === PhD topic === '''Plenoptic tomography for 3D microscopy - device and algorithms''' Doctoral advisors : Jihad Zallat (PR, ICube TRIO) and [[Christian Heinrich]] (PR, ICube IMAGeS) <div style="max-width:700pt;"> The general context of the thesis is the plenoptic tomography for microscopy. The application framework is biology and medicine, with a view to proposing original tools for the analysis of tissues. This research work is part of a currently ongoing project in the transverse axis "physical imaging and imaging systems" (Imagerie Physique et Systèmes - IPS) of the ICube laboratory. The application framework has also included this project in the axis "medical and surgical imaging and robotics" (Imagerie et Robotique Médicale et Chirurgicale - IRMC) of the ICube laboratory. </div> === Teaching === :1A : Numerical analysis :1A : Probability and stochastic processes :2A : Signal processing e8d14ba7b1f0e3e782d4ed64a4bf6735de21432c 0 35 1016 695 2018-07-19T15:47:06Z Heitz 30 /* Description of Activities */ wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /><br /> [http://orcid.org/0000-0002-3004-0957 ORCID] <br /> |} </td> <td align=right> [[File:Fab7-red.JPG|200px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group IMAGes: IMages, leArning, Geometry and Statistics === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal and Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 4b5b5dca8258d7079224691b6666bedd65b7f041 1017 1016 2018-07-19T15:49:52Z Heitz 30 /* Publications */ wikitext text/x-wiki <big>'''Professor, Deputy Director ICube Laboratory'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 87<br /> Fax: + 33 (0) 3 68 85 44 55<br /> Office: '''C215''' <br /> E-mail: '''fabrice(dot)heitz(at)unistra(dot)fr'''<br /><br /> [http://orcid.org/0000-0002-3004-0957 ORCID] <br /> |} </td> <td align=right> [[File:Fab7-red.JPG|200px|frameless|center]] </td> </table> == Description of Activities == * Professor of Signal and Image Processing, [http://www.telecom-physique.fr/ Telecom Physique Strasbourg] * Deputy Director, Icube Laboratory * Head of the Research Group IMAGes: IMages, leArning, Geometry and Statistics === Research === * Signal and Image Processing. * Statistical modeling, Markov models, non Gaussian models, deformable models. * Machine learning. * 3D deformable image registration. 3D image segmentation. Change detection. * Applications : medical image analysis (MRI, DTI, SPECT, PET), image sequence analysis. === Courses === *Analog Signal and Systems *Probability and Stochastic Processes *Random Signals and Statistical Signal Processing *Statistics *2D Signal and Image Processing *Image Sequence Analysis == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=heitz fabrice&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 362c1f394b39db37ed88f22d01ef28baf0fd0754 0 149 1019 983 2018-10-09T13:01:41Z Noblet 4 wikitext text/x-wiki == Internship available for 2018 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Analysis of CT abdominal images to optimize the donor/recipient matching in liver transplantation]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:DetectionDeChangement.pdf| Joint detection of intensity and geometry changes in brain MRI ]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:Stage2018-CPS-Strasbourg_Brain_Meta_final.pdf| Brain metastasis segmentation with deep convolutional networks ]] || 6 months || Master 2 / PFE ingénieur || available |- |[[:Media:2017-DL-VascularSegmentation-en.pdf| Deep learning for the segmentation of vascular volumes from 3D MRA]] || 6 months || Master 2 / PFE ingénieur || available |- | [[:Media:2017_TUCAN_Sujet_M2.pdf| Centerline extraction of cerebral vascular networks in MRI images ]] || 6 months || Master 2 / PFE ingénieur|| '''filled''' |} == Internship available for 2017 == {| class="wikitable sortable" |- |[[:Media:StageRADIAL.pdf|Radiomics : une approche innovante pour la caractérisation des tumeurs par analyse d'images : application aux tumeurs hépatiques]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:DetectionPrecoceGliome.pdf|Prédiction des zones de récidive post-chirurgicale de tumeurs cérébrales par méthodes d’apprentissage supervisée]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |[[:Media:ParcelisationCorticale.pdf|Parcellisation in vivo des aires cérébrales du cortex humain en IRM multiparamétrique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg |frameless|center|100px]] |- |Segmentation d'images pour le remodelage aortique et l'analyse d'endofuite en chirurgie endovasculaire || 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017stgMIV-SERTIT.pdf|Segmentation Multibande de series temporelles : application à la discrimination d’essences en forêts vosgiennes]]|| 6 mois || master 2 + PFE ingénieur || disponible |- |[[:Media:2017stgANR-DSIM-wp3.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 + PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |Stage en géométrie discrète au choix : [[:Media:sujetM2Cases.pdf|sujet 1]], [[:Media:sujetM2DualGenerEstim.pdf|sujet 2]], [[:Media:sujetM2Rot.pdf|sujet 3]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:Master2017-fr.pdf|Évaluation de l'algorithme de Monte Carlo hybride pour la décomposition de spectres en imagerie astronomique]]|| 6 mois || master 2 / PFE ingénieur || [[File:StagePourvu.jpg|frameless|center|100px]] |- |[[:Media:2017 SujetStage ANR DSIM.pdf|Détection et suivi de trajectoires spectroscopiques en imagerie multispectrale]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomoOptim.pdf|Intégration d'information a priori dans une méthode de reconstruction pour la cryo-microscopie électronique]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |[[:Media:2017tomo Reduc Dim.pdf|Utilisation d'information a priori pour le débruitage d'un graphe]]|| 6 mois || master 2 / PFE ingénieur || disponible |- |} [[fr:HistoriqueStage]] 7f03bb01b89cc18e70ead6b87dbc42cdc1d58f9d 0 12 1020 997 2018-10-09T13:02:35Z Noblet 4 /* Internship available for 2018 */ wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:2017_Sujet_M2R_Hepatic_Transplantation.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 743713ffbcf8ae9aa7753c777454d71dfb4fc871 1021 1020 2018-10-09T13:03:04Z Noblet 4 /* Internship available for 2019 */ wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] aadf34023efe275e6d887e83554606f865cca1fb 1041 1021 2018-12-12T17:17:57Z Essert 69 wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 200c93e6d6594790e6221d05b607e39d06bf479f 1042 1041 2018-12-12T17:18:45Z Essert 69 wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''open''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 2d3b10d237ff962f591d92d8c2029029692f3103 1043 1042 2018-12-12T17:19:09Z Essert 69 wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''open''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] f4cc0d1415d6079e282222118b2102c18d394c65 1048 1043 2019-03-05T09:00:38Z Essert 69 wikitext text/x-wiki == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 8f8740e2be6e89422b17b4aa6b5aad0eb3640c72 0 26 1022 984 2018-10-18T14:45:15Z Mazo 15 wikitext text/x-wiki [[fr : Loïc Mazo]] <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Office : '''C217''' <br /><br /> Phone : + 33 (0) 3 68 85 44 96 <br /> ( IUT : + 33 (0) 3 68 85 84 31 )<br /> E-mail : '''loic.mazo@unistra.fr'''<br /> |} </td> <td align=right> [[File:Mazo.jpg|200px|frameless|center]] </td> </table> == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mazo&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> dad2ea263cd17a9d3c85377cad7d6bda2fcf8eb1 0 90 1024 1001 2018-10-26T10:10:04Z Mortada 48 wikitext text/x-wiki <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Office : '''B224'''<br /> E-mail : '''mortada(at)unistra(dot)fr'''<br /> Personal page : [http://hmortada.ml/ hmortada.ml]<br /> |} </td> <td align=right> [[File:Hassan.jpg|frameless|center]] </td> </table> === PhD Subject === '''Joint Decomposition using Sparse Approximation in Astronomical Multispectral Images''' '''Funding''': [http://dsim.unistra.fr/ ANR DSIM]. '''Director''': [http://miv.u-strasbg.fr/collet/Perso/ColletPerso.htm Christophe Collet (ICUBE)]. '''Co-director''': [http://w3.cran.univ-lorraine.fr/perso/charles.soussen/ Charles Soussen (L2S)]. '''Supervisor''': [http://miv.u-strasbg.fr/mazet/mazet-fr.html Vincent Mazet (ICUBE)]. Telescopes today routinely provide high-resolution multispectral images, i.e. 3D images where the third dimension is the wavelength : each pixel of the multispectral image is a peak (or line) spectrum. Then, the spectrum of galaxies is observed to measure the peak shift due to the Doppler effect and induced by galaxy kinematics. the goal of this thesis is to approximate the emission lines peaks in the the Astonomical images. These peaks evolve slowly between two neighbouring spectra, another challenge goal is to estimate the trajectory made by the peaks in order to decompose the image structures. === Research Interests === * Sparse approximation * Inverse problems * Sources separation === Talks === *Summer school Peyresq 2016: 'Modèles probabilistes et inférence en signal et image' *GDR ISIS meeting "inverse problems", 20 mars 2017, Paris: [http://www.gdr-isis.fr/index.php?page=reunion&idreunion=329 'Presentation'] === Publications === * H. Mortada, V. Mazet, C. Soussen, C. Collet. Separation of delayed parameterized sources. EUSIPCO, Aug 2017, Kos Island, Greece. === Teaching === ===== 2016/2017 (64h) ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) ===== 2017/2018 (64h) ===== * Signal processing (2nd year-S1) * Image processing (Master 2 -S1) * Numerical analysis (1st year -S1) * 2D signal processing (2nd year -S2) * Digital communication (2nd year -S2) == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=mortada&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> [[en:Hassan Mortada]] eab469b89b7f0ad0986a3563b7e10bb7a32acd9e 0 151 1025 2018-11-07T11:45:16Z Essert 69 Created page with "__NOEDITSECTION__ __NOTOC__ * Maître de conférence HDR hors classe en informatique, au laboratoire [http://icube.unistra.fr ICube] de l'[http://www.unistra.fr Université d..." wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Maître de conférence HDR hors classe en informatique, au laboratoire [http://icube.unistra.fr ICube] de l'[http://www.unistra.fr Université de Strasbourg] depuis 2003. ** en délégation [http://www.inria.fr/ INRIA] dans l'équipe [http://www.irisa.fr/visages/ Visages] de l'[http://www.irisa.fr IRISA] de Rennes du 01/09/2008 au 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API C111 Bureau C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3-90-24-43-63 Fax ICube : +33 (0)3-90-24-44-45 Courriel : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Page personnelle] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Recherche== * Modélisation géométrique par contraintes ** Expression déclarative de contraintes ** Parcours d'espaces de solutions ** Modification interactive de contraintes et de solutions * Application à la planification d'opérations chirurgicales ** Formalisation de connaissances chirurgicales sous forme de contraintes ** Calcul de trajectoire optimale satisfaisant divers types de contraintes ** Parcours interactif d'espace de solutions de trajectoires ** Optimisation multi-critères ** Simulations d'interventions * Réalité Virtuelle ** Utilisation de la Réalité Virtuelle et des Interfaces Haptiques de façon réaliste ou non réaliste (-> ex. pour la matérialisation de propriétés) ** Détournement de sensations tactiles à des fins d'assistance au geste ==Responsabilités Scientifiques== * General Chair de MICCAI 2021 Strasbourg * Co-Program Chair de MICCAI 2019 Shenzhen * Membre du comité d'organisation de CARS 2019 Rennes * Responsable pour ICube du projet WP3-FLI "ECHOPT" 2018-2019 * Responsable pour ICube du projet PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * Responsable pour ICube du projet IHU Haystack 2013-2015 * Responsable pour ICube du projet ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organisatrice de la 35è conférence internationale EuroGraphics, en 2014 à Strasbourg * Membre du comité d'évaluation ANR "Modèles Numériques" de 2011 à 2013 * Chair du workshop MICCAI DBSMC 2012 * Chair du symposium "VR in Medicine and Surgery" à VRIC 2010, Laval Virtual ==Responsabilités Administratives== * Responsable du Master Informatique depuis 2018 * Responsable du CMI Informatique Image, Réalité Virtuelle, Interactions et Jeux depuis 2014 * Responsable du L2 Informatique à l'Université Louis Pasteur de 2005 à 2008 * Membre de la Commission de Spécialistes 27è de Strasbourg en 2008 et du Comité de Sélection 27è depuis 2010, et membre extérieur de la Commission de Spécialistes 27è Nancy 2 en 2007 et 2009 * Membre du conseil du LSIIT de 2007 à 2009 ==Publications== Sur Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] Sur DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] Sur le site ICube : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> 2eb2e9b827671a3a74825472cbdd7c7543ace13d 1026 1025 2018-11-07T11:55:59Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API C111 Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3-90-24-43-63 Fax ICube : +33 (0)3-90-24-44-45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Personal website] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Membre of the council of LSIIT Lab from 2007 to 2009 ==Publications== Sur Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] Sur DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] Sur le site ICube : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> 50bf0249616e49baf35053bb9fdc46bb4099acf4 1027 1026 2018-11-07T11:56:14Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API C111 Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3-90-24-43-63 Fax ICube : +33 (0)3-90-24-44-45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Membre of the council of LSIIT Lab from 2007 to 2009 ==Publications== Sur Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] Sur DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] Sur le site ICube : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> ff20251315934c4cc17cfcb8c5a97b8fe4ffb674 1028 1027 2018-11-07T11:57:20Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API C111 Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Membre of the council of LSIIT Lab from 2007 to 2009 ==Publications== Sur Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] Sur DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] Sur le site ICube : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> 85474c99d73f8ad59a5b3678cf153e10bced5dd6 1029 1028 2018-11-07T12:05:12Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API C111 Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> e268ee06eb4cc0596ce8922f767d84fee8b79298 1030 1029 2018-11-07T12:05:51Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> 79fec3d3cd9a1d4598fce2e7ee6eaf7f1e1cdb2a 1031 1030 2018-11-07T13:33:56Z Pimmel 43 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [fr:Caroline Essert] 5692a36ca9c64997fa42db5cb22b27fdc2068d10 1032 1031 2018-11-07T13:34:39Z Pimmel 43 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/site/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] e9de6153a889544d9a87dc0511fab6c97b3350a8 1033 1032 2018-11-08T13:47:44Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:Essert.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 6540fc0ab366c721a70754daf48e88461e90717e 0 37 1034 897 2018-11-16T08:03:42Z Heinrich 29 wikitext text/x-wiki [[en:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for computational microscopy. <br> Application to polarimetric imaging and biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> Ongoing PhD thesis: A. Bozhok, ''Plenoptic tomography for 3D microscopy'', University of Strasbourg, 2016-2019. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingénierie pour le Vivant''). : Responsable de l'option ''Images, Signaux et Science des Données'' (ISSD) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Images et Données'' (ID), master 2 IRIV. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * Ch. Heinrich, J. Rehbinder, A. Nazac, B. Teig, A. Pierangelo, J. Zallat, Mueller polarimetric imaging of biological tissues: classification in a decision-theoretic framework, ''Journal of the Optical Society of America A'', vol. 35, n. 12, pp. 2046-2057, 2018 * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 58233bf6eed7b2ac21ec66921068c682d8c35cc5 1035 1034 2018-11-16T08:06:35Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for computational microscopy. <br> Application to polarimetric imaging and biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> Ongoing PhD thesis: A. Bozhok, ''Plenoptic tomography for 3D microscopy'', University of Strasbourg, 2016-2019. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingénierie pour le Vivant''). : Responsable de l'option ''Images, Signaux et Science des Données'' (ISSD) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Images et Données'' (ID), master 2 IRIV. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * Ch. Heinrich, J. Rehbinder, A. Nazac, B. Teig, A. Pierangelo, J. Zallat, Mueller polarimetric imaging of biological tissues: classification in a decision-theoretic framework, ''Journal of the Optical Society of America A'', vol. 35, n. 12, pp. 2046-2057, 2018 * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 8d6832c49c5a4dcaebecec466254bd9646a7170d 1039 1035 2018-11-19T08:57:03Z Heinrich 29 wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - IMAGeS<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> Fax: 03 68 85 44 45<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> <big>'''Teaching'''</big> <br> Signal processing, probability, inverse problems. <br> Courses taught at Telecom Physique Strasbourg. </P> <P> <br> <big>'''Current research activity'''</big><br> * High-dimensional statistics and machine learning for medical image analysis. <br> Application to diffusion-weighted MRI data analysis. <br> In collaboration with Félix Renard (AGIM lab, Grenoble). * Inverse problems and machine learning for computational microscopy. <br> Application to polarimetric imaging and biological tissue analysis. <br> In collaboration with Jihad Zallat (TRIO team, ICube). <br> Ongoing PhD thesis: A. Bozhok, ''Plenoptic tomography for 3D microscopy'', University of Strasbourg, 2016-2019. * Recent co-advised theses: <br> F. Renard, ''Création et utilisation d'atlas en IRM de diffusion. Application à l'étude des troubles de la conscience.'', PhD Thesis, University of Strasbourg, 2011. <br> G. Sfikas, ''Modèles statistiques non linéaires pour l'analyse de formes. Applications à l'imagerie cérébrale.'', PhD Thesis, University of Strasbourg, 2012. <br> Th. Gkamas, ''Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion.'', PhD Thesis, University of Strasbourg, 2015. <br> <big>'''Main current responsibilities'''</big><br> : Responsable (avec Jacques Gangloff, ICube-AVR) du master IRIV (''Imagerie, Robotique et Ingénierie pour le Vivant''). : Responsable de l'option ''Images, Signaux et Science des Données'' (ISSD) (troisième année, Télécom Physique Strasbourg). : Responsable du parcours ''Images et Données'' (ID), master 2 IRIV. <big><br>'''Bio'''</big><br> : Electrical engineering degree (Supélec, 1990) : PhD degree (Signal Processing, Université Paris-Sud, Orsay, 1997) : Agregation degree (Applied Physics, 1998) : Habilitation degree (University of Strasbourg, 2008) : Professor (CNU 61, University of Strasbourg, since 2010) </P> <big><br>'''Selected publications'''</big><br> * Ch. Heinrich, J. Rehbinder, A. Nazac, B. Teig, A. Pierangelo, J. Zallat, Mueller polarimetric imaging of biological tissues: classification in a decision-theoretic framework, ''Journal of the Optical Society of America A'', vol. 35, n. 12, pp. 2046-2057, 2018 * M. Karnoukian, S. Faisan, Ch. Heinrich, A. Lallement, J. Zallat, Segmentation of Mueller matrix images under non-uniform illumination, ''Optics Express'', vol. 23, n. 14, pp. 18218-18235, 2015. * S. Faisan, Ch. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering, ''Optics Express'', vol. 21, n. 4, pp. 4424-4438, 2013 * S. Achard, C. Delon-Martin, P. Vertes, F. Renard, M. Schenck, F. Schneider, Ch. Heinrich, S. Kremer, E. Bullmore, Hubs of brain functional networks are radically reoarganized in comatose patients, ''Proceedings of the National Academy of Sciences of the United States of America'', vol. 109, n. 50, pp. 20608-20613, 2012 * S. Faisan, Ch. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering estimation of Stokes vector images based on a nonlocal means approach, ''Journal of the Optical Society of America A'', vol. 29, n. 9, pp. 2028-2037, 2012 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, An efficient incremental strategy for constrained groupwise registration based on symmetric pairwise registration, ''Pattern Recognition Letters'', vol. 33, n. 3, pp. 283-290, 2012 * S. Chatelin, C. Deck, F. Renard, S. Kremer, Ch. Heinrich, J.-P. Armspach, R. Willinger, Computation of axonal elongation in head trauma finite element simulation, ''Journal of the Mechanical Behavior of Biomedical Materials'', vol. 4, n. 8, pp. 1905-1919, 2011 * G. Sfikas, Ch. Heinrich, J. Zallat, Ch. Nikou, N. Galatsanos, Recovery of polarimetric Stokes images by spatial mixture models, ''Journal of the Optical Society of America A'', vol. 28, n. 3, pp. 465-474, 2011 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, F. Guillemin, Digestive activity evaluation by multichannel abdominal sounds analysis, ''IEEE Transactions on Biomedical Engineering'', vol. 57, n. 6, pp. 1507-1519, 2010 * G. Sfikas, Ch. Nikou, N. Galatsanos, Ch. Heinrich, Spatially varying mixtures incorporating line processes for image segmentation, ''Journal of Mathematical Imaging and Vision'', vol. 36, n. 2, pp. 91-110, 2010 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Accurate inversion of 3-D transformation fields, ''IEEE Transactions on Image Processing'', vol. 17, n. 10, pp. 1963-1968, 2008 * J. Zallat, Ch. Heinrich, M. Petremand, A Bayesian approach for polarimetric data reduction: the Mueller imaging case, ''Optics Express'', vol. 16, n. 10, pp. 7119-7133, 2008 * J. Zallat, Ch. Heinrich, Polarimetric data reduction: a Bayesian approach, ''Optics Express'', vol. 15, n. 1, pp. 83-96, 2007 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, Retrospective evaluation of a topology preserving non-rigid registration method, ''Medical Image Analysis'', vol. 10, n. 3, pp. 366-384 2006 * R. Ranta, V. Louis-Dorr, Ch. Heinrich, D. Wolf, Iterative wavelet-based denoising methods and robust outlier detection, ''IEEE Signal Processing Letters'', vol. 12, n. 8, pp. 557-560, 2005 * V. Noblet, Ch. Heinrich, F. Heitz, J.-P. Armspach, 3-D deformable image registration: a topology preservation scheme based on hierarchical deformation models and interval analysis optimization, ''IEEE Transactions on Image Processing'', vol. 14, n. 5, pp. 553-566, 2005 * R. Ranta, Ch. Heinrich, V. Louis-Dorr, D. Wolf, Interpretation and improvement of an iterative wavelet-based denoising method, ''IEEE Signal Processing Letters'', vol. 10, n. 8, pp. 239-241, 2003 * Ch. Heinrich, G. Demoment, Minimization of strictly convex functions: an improved optimality test based on Fenchel duality, ''Inverse Problems'', vol. 16, n. 3, pp. 795-810, 2000 65eae670a9b5cbf2e1b827dcde309a850debcfea 0 13 1044 951 2018-12-12T17:24:59Z Essert 69 wikitext text/x-wiki '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of numerous surgical tools]]. '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] dd73122ccc9734d79f4823c2fff2061bf9a3f96d 1045 1044 2018-12-14T08:13:38Z Essert 69 wikitext text/x-wiki '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]]. '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 6e268717b1fc007a61ad24aa92c55a2850fe854d 1046 1045 2018-12-14T08:13:52Z Essert 69 wikitext text/x-wiki '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] d6b2a96b39864c83a793ce72a4dbb54dd9c393b2 1050 1046 2019-04-07T14:36:43Z Naegel 6 wikitext text/x-wiki '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 992ab9c688a86b2c25a996952108d9ae1228715e 1051 1050 2019-04-23T09:53:03Z Naegel 6 wikitext text/x-wiki '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 6fc86f73a3b9fd34ab8c3c943cd593da39671d17 8 2 1047 994 2019-01-30T13:28:23Z Pimmel 43 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations * Platforms ** http://plateforme.icube.unistra.fr/iris/index.php/Accueil|IRIS ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS 6111982c118b8c439a4a304fbbee8730be1059f2 6 152 1049 2019-04-07T14:36:18Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 153 1052 2019-04-23T10:04:19Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 153 1053 1052 2019-04-23T10:06:52Z Naegel 6 Naegel uploaded a new version of &quot;[[File:2019-These-Schultz Naegel-en.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 100 56 1054 1040 2019-05-21T09:28:48Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Argheesh Bhanot, [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 91fb664aadfc5e68bdbdfcb43ab8cf854cc210f2 1064 1054 2019-06-04T15:16:28Z Bhanot 65 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> aa48dea67d66da62c786662536083d7be3a66715 1065 1064 2019-06-17T08:03:27Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 6dce243876b14c6d1690d179109e4d7be8834c58 1070 1065 2019-07-10T10:01:48Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 6340a04546bfb0da0bc876d43c7c94da50f58b3c 1071 1070 2019-07-10T11:31:06Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Denis Fortun]],[[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 4dd4cbdc8c6e994b983e3d262ac0ed455df38fe9 1072 1071 2019-08-29T13:09:35Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun]|Denis Fortun]]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 83f66ac8d664e8a0b7183b17cd86b70d1380213f 1073 1072 2019-08-29T13:09:50Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun]|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 429010e2f37202855ed080b13acdbd9d6f4e3755 1074 1073 2019-08-29T13:10:05Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td>Duong Hung Pham</td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 416dd41f76b4c0c23c23fd73e9e468f318ba0cc9 1075 1074 2019-08-29T13:11:33Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhatttacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 7e6d7f2b9064827cf5eed847bce8b29b0fb62b34 1076 1075 2019-08-29T13:17:15Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, [[Céline Heimburger]], Aurélien Launay, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 260cd1c22e07d294d138eed9428cbd95650a28a3 1079 1076 2019-10-31T10:16:46Z Noblet 4 wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhattacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, Cyril Meyer, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <anyweb>http://icube-publis.unistra.fr/?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu</anyweb> 7abe26091b38c02f4dbc344d6933b0005a437abd 0 154 1055 2019-06-04T14:15:46Z Bhanot 65 Created page with "<big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France..." wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> === PhD Title === ''' Détection de changements multipoints en IRM multi-séquences du petit animal ''' ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] et Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 950004946a5a4cd90ac3374b10c2f2995f986cf3 1056 1055 2019-06-04T14:16:03Z Bhanot 65 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> === PhD Title === ''' Détection de changements multipoints en IRM multi-séquences du petit animal ''' ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> d4ebc783e31709f6e9860ab979a35b1deb2402e7 1057 1056 2019-06-04T14:16:17Z Bhanot 65 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> === PhD Title === ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 6479a03ac33351388fc7c1dfedba3a32440befc9 1058 1057 2019-06-04T14:16:28Z Bhanot 65 wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> === PhD Title === ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 450f25462d48d6984510537d7b082d0bfd2f531f 1059 1058 2019-06-04T14:26:48Z Bhanot 65 wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Argheesh.jpeg|frameless|center]] </td> </table> === PhD Title === ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> 2a8faaca27b8343e994c434cc7b5f29a7d878fb5 1061 1059 2019-06-04T15:05:39Z Bhanot 65 wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Argheesh.jpeg|frameless|center]] </td> </table> == PhD Title == ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Description des activités == === Enseignement === '''2018-2019''' :3A : TP Traitement d'images OFTI :2A : TP Traitement du signal :2A : TP statistiques '''2017-2018''' :2A :TP statistiques :2A :TP Traitement du signal :FIP :TP Traitement du signal :1A :TP analyse numérique :1A :TP probabilités == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> ca5c9a55c1a42282e7557cd73708c7b20b8cac16 1062 1061 2019-06-04T15:07:03Z Bhanot 65 /* Description des activités */ wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Argheesh.jpeg|frameless|center]] </td> </table> == PhD Title == ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and Laura Harsan PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Activities == === Teaching === '''2018-2019''' :3A : TP Image Processing OFTI :2A : TP Signal Processing :2A : TP Statistics '''2017-2018''' :2A :TP Statistics :2A :TP Signal Processing :FIP :TP Signal Processing :1A :TP Numerical Analysis :1A :TP Probability == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> c84149ad72fbea6f1cdffaf7a9153a527629f46c 1063 1062 2019-06-04T15:08:13Z Bhanot 65 /* PhD Title */ wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 7 83 47 28 11<br /> <br /> Bureau : '''B 221''' <br /> Courriel : '''bhanot(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:Argheesh.jpeg|frameless|center]] </td> </table> == PhD Title == ''' Multipoint change detection in multi-sequence IRM of small animals ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.researchgate.net/profile/Laura-Adela_Harsan Laura Harsan] PhD Supervisor: [http://images.icube.unistra.fr/fr/index.php/C%C3%A9line_Meillier Céline Meillier] == Activities == === Teaching === '''2018-2019''' :3A : TP Image Processing OFTI :2A : TP Signal Processing :2A : TP Statistics '''2017-2018''' :2A :TP Statistics :2A :TP Signal Processing :FIP :TP Signal Processing :1A :TP Numerical Analysis :1A :TP Probability == Publications == <anyweb> http://newlsiit.u-strasbg.fr/papr/appli.php?author=bhanot argheesh&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&hide=0&hide=0 </anyweb> f014cfca9106ed946ce26cabe818cf2f0faf874e 6 155 1060 2019-06-04T14:27:18Z Bhanot 65 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 156 1066 2019-06-17T09:50:49Z Dufresne 71 Created page with "<big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - Franc..." wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''B224'''<br /> Courriel : '''dufresnee(at)unistra(dot)fr'''<br /> |} </td> <td align=right> </td> </table> === Thesis subject === '''Unified framework for change detection in multimodal brain MRI. Application to longitudinal analysis of Multiple Sclerosis patients.''' '''Funding''': Région Grand Est / Philips. '''Directors''': [http://images.icube.unistra.fr/fr/index.php/Vincent_Noblet Vincent Noblet (ICube - IMAGeS)] and [http://med.unistra.fr/eng/Recherche/Liste-des-Hospitalo-Universitaires/KREMER Stéphane Kremer (Hôpitaux universitaires de Strasbourg - Imagerie; Service de neuroradiologie, d’imagerie ostéarticulaire et interventionnelle / ICube - IMIS)]. '''Supervisor''': [http://bigwww.epfl.ch/fortun/index.html Denis Fortun (ICube - IMAGeS)]. === Interests === *Change detection *Motion estimation *Brain MRI [[Utilisateur:Dufresne|Dufresne]] ([[Discussion utilisateur:Dufresne|discussion]]) 6c9d50c795e9eb8fd60ae9eaf7c3deb248dc5628 1067 1066 2019-06-17T11:26:59Z Noblet 4 wikitext text/x-wiki [[fr:Eleonore_Dufresne]] <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''B224'''<br /> Courriel : '''dufresnee(at)unistra(dot)fr'''<br /> |} </td> <td align=right> </td> </table> === Thesis subject === '''Unified framework for change detection in multimodal brain MRI. Application to longitudinal analysis of Multiple Sclerosis patients.''' '''Funding''': Région Grand Est / Philips. '''Directors''': [http://images.icube.unistra.fr/fr/index.php/Vincent_Noblet Vincent Noblet (ICube - IMAGeS)] and [http://med.unistra.fr/eng/Recherche/Liste-des-Hospitalo-Universitaires/KREMER Stéphane Kremer (Hôpitaux universitaires de Strasbourg - Imagerie; Service de neuroradiologie, d’imagerie ostéarticulaire et interventionnelle / ICube - IMIS)]. '''Supervisor''': [http://bigwww.epfl.ch/fortun/index.html Denis Fortun (ICube - IMAGeS)]. === Interests === *Change detection *Motion estimation *Brain MRI [[Utilisateur:Dufresne|Dufresne]] ([[Discussion utilisateur:Dufresne|discussion]]) a27f2e16c3a735868de0ecd78f816143ba61775c 1068 1067 2019-06-17T11:27:53Z Noblet 4 wikitext text/x-wiki [[fr:Eleonore_Dufresne]] <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''B224'''<br /> Courriel : '''dufresnee(at)unistra(dot)fr'''<br /> |} </td> <td align=right> </td> </table> === Thesis subject === '''Unified framework for change detection in multimodal brain MRI. Application to longitudinal analysis of Multiple Sclerosis patients.''' '''Funding''': Région Grand Est / Philips. '''Directors''': [http://images.icube.unistra.fr/fr/index.php/Vincent_Noblet Vincent Noblet (ICube - IMAGeS)] and [http://med.unistra.fr/eng/Recherche/Liste-des-Hospitalo-Universitaires/KREMER Stéphane Kremer (Hôpitaux universitaires de Strasbourg - Imagerie; Service de neuroradiologie, d’imagerie ostéarticulaire et interventionnelle / ICube - IMIS)]. '''Supervisor''': [http://bigwww.epfl.ch/fortun/index.html Denis Fortun (ICube - IMAGeS)]. === Interests === *Change detection *Motion estimation *Brain MRI cc2b87e5396d2aa4555e64c42397de5b6cb00478 1088 1068 2020-02-14T12:36:43Z Dufresne 71 wikitext text/x-wiki [[fr:Eleonore_Dufresne]] <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''B224'''<br /> Courriel : '''dufresnee(at)unistra(dot)fr'''<br /> |} </td> <td align=right> </td> </table> === Thesis subject === '''Unified framework for change detection in multimodal brain MRI. Application to longitudinal analysis of Multiple Sclerosis patients.''' '''Funding''': Région Grand Est / Philips. '''Directors''': [http://images.icube.unistra.fr/fr/index.php/Vincent_Noblet Vincent Noblet (ICube - IMAGeS)] and [http://med.unistra.fr/eng/Recherche/Liste-des-Hospitalo-Universitaires/KREMER Stéphane Kremer (Hôpitaux universitaires de Strasbourg - Imagerie; Service de neuroradiologie, d’imagerie ostéarticulaire et interventionnelle / ICube - IMIS)]. '''Supervisor''': [http://bigwww.epfl.ch/fortun/index.html Denis Fortun (ICube - IMAGeS)]. === Interests === *Change detection *Motion estimation *Brain MRI === Publications === <anyweb>http://icube-publis.unistra.fr/?author=El%C3%A9onore+Dufresne&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> 491a4fb4040f893cfe1fdccd73c59aa4812fa529 1089 1088 2020-02-14T12:38:27Z Dufresne 71 wikitext text/x-wiki [[fr:Eleonore_Dufresne]] <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br />300 Bd Sébastien Brant<br />BP 10413<br />67412 Illkirch CEDEX - France<br /><br /><br />Fax : + 33 (0) 3 68 85 44 52<br />Bureau : '''B224'''<br /> Courriel : '''dufresnee(at)unistra(dot)fr'''<br /> |} </td> <td align=right> </td> </table> === Thesis subject === '''Unified framework for change detection in multimodal brain MRI. Application to longitudinal analysis of Multiple Sclerosis patients.''' '''Funding''': Région Grand Est / Philips. '''Directors''': [http://images.icube.unistra.fr/fr/index.php/Vincent_Noblet Vincent Noblet (ICube - IMAGeS)] and [http://med.unistra.fr/eng/Recherche/Liste-des-Hospitalo-Universitaires/KREMER Stéphane Kremer (Hôpitaux universitaires de Strasbourg - Imagerie; Service de neuroradiologie, d’imagerie ostéarticulaire et interventionnelle / ICube - IMIS)]. '''Supervisor''': [http://bigwww.epfl.ch/fortun/index.html Denis Fortun (ICube - IMAGeS)]. === Interests === *Change detection *Registration *Brain MRI === Publications === <anyweb>http://icube-publis.unistra.fr/?author=El%C3%A9onore+Dufresne&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> 14e67060f971fd68f36e0b10588b36eeb99de6fe 0 6 1069 1038 2019-07-01T20:45:29Z Noblet 4 /* Description of activities */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> 38348c9f8db896de7a650f07921c2a0d8c56d473 0 3 1077 995 2019-09-06T14:59:30Z Heitz 30 wikitext text/x-wiki [[File:MIV-image.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' [[fr:Accueil]] e0ac0e703e7b9af6edf03e74bee01e45f51d2ac6 1078 1077 2019-10-16T08:31:50Z Heitz 30 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: Pr [[Christian Ronse]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' [[fr:Accueil]] 68384008e62995cbce841d88d9d5b7e77b8205ad 100 47 1080 937 2019-11-13T22:29:09Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Yves Michels]]</td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] 77cd567e881c5daffc23ac9b24755d0997d98af8 1081 1080 2019-11-13T22:30:32Z Tajine 11 wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Etienne_Le_Quentrec|LE QUENTREC Etienne]], [[Cyril_Meyer|MEYER Cyril]] </td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <anyweb>http://icube-publis.unistra.fr/?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu</anyweb> [[fr:Géométrie discrète et morphologie mathématique]] e6a193f394232f4d2b6ddfad01fb4b5a25bb9f10 0 157 1082 2019-12-03T15:34:46Z Cmeyer 72 Created page with "<big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="p..." wikitext text/x-wiki <big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ Site Internet]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL_MEYER_2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [http://www.igbmc.fr/Schultz/ Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Conception de documents et d'interfaces numériques (W11) : DUT in Computer Science == Publications == <anyweb> http://icube-publis.unistra.fr/?author=Cyril+Meyer&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=2015&year2=&=#hideMenu </anyweb> b4628c1b68dcd4c2fb23c280e06adf88cc3fae2d 1083 1082 2019-12-03T15:35:43Z Cmeyer 72 wikitext text/x-wiki <big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ website]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL_MEYER_2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [http://www.igbmc.fr/Schultz/ Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Conception de documents et d'interfaces numériques (W11) : DUT in Computer Science == Publications == <anyweb> http://icube-publis.unistra.fr/?author=Cyril+Meyer&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=2015&year2=&=#hideMenu </anyweb> 481805b0af93c88605382407387f674e77580e07 0 12 1084 1048 2019-12-11T12:01:53Z Essert 69 wikitext text/x-wiki == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''open''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 85aaf5d357682b09c623b2d479821c993f6d7f96 1087 1084 2019-12-11T12:06:29Z Essert 69 wikitext text/x-wiki == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || open |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 44b06dcc2ec045720a09e05e531f6b895280cd12 6 158 1085 2019-12-11T12:02:32Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 159 1086 2019-12-11T12:03:40Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 100 74 1090 416 2020-03-23T10:18:35Z Pimmel 43 wikitext text/x-wiki [[fr:Faits_marquants]] == News 2020 == ====Covid-19 cartography==== ''An epidemic is defined as a rapidly evolving phenomenon in time and space. We are currently facing an epidemic situation that is unprecedented in the history of medicine. We are gradually discovering a new disease. Every day, we learn more about it, which allows us to constantly adapt to provide adequate responses. Knowledge of the parameters of the Covid-19 epidemic allows us to be better prepared to organise care accordingly.''<br /> In collaboration with the team of the Infectious Diseases Service of the University Hospitals of Strasbourg, the Public Health Service (GMRC, Pr Meyer) and the Laboratory of Biostatistics and Medical Informatics (Faculty of Medicine, Pr Sauleau) are contributing to the fight against the Covid-19 infection. Docteur Fabacher has produced an interactive map for global monitoring of the infection. All three belong to IMages, leArning, Geometry and Statistics team (IMAGeS) in the Laboratory ICube (CNRS, Université de Strasbourg, ENGEES, INSA Strasbourg). <br /> The map is available at: https://thibautfabacher.shinyapps.io/covid-19/ This tool is complementary to maps already published, such as the Johns Hopkins University map (Coronavirus COVID-19 Global Cases by Johns Hopkins CSSE), from which it retrieves some data but gives, on a global scale, an evolutionary vision both chronologically and geographically and makes it possible to measure the extent and spread of the coronavirus phenomenon.<br /> ''How does this map work ?<''br /> This map focuses on the evolution of the number of cases per country and for a given period, but in terms of incidence and prevalence. It is updated daily. The period of interest can be defined by the user and it is possible to choose (indicator): * The count of new cases over a period of time or the same count reported to the population of the country (incidence). * The total case count over a period of time or the same count reported to the population (prevalence). The user can zoom in on the map with the "+" and "-" buttons or with the scroll wheel of his mouse and can animate the map with the small "play" button under the choice of dates. We have added mortality data, presented according to the same principle, as well as curves of temporal evolution (by clicking on the "show evolution" box at the bottom right), allowing to display the evolution of the indicators by choosing the countries by clicking. Finally a mobile version is available for smartphone with the button at the top right. <br /> For any technical question, please contact [http://mailto:thibaut.fabacher@chru-strasbourg.fr Dr Fabacher]. == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] and [[Alex Lallement]] are the inventors of a patented device whose aim is to compensate the dephasing drift of a polarization state modulator. This device is based on liquid crystal modulators. The drift of one modulator is compensated by the drift of another modulator. This alleviates the need to recurrently calibrate the instrument. ===== Results of the project ERC FBrain ===== The [[ERC FBrain]] project (2008-2013), led by [[François Rousseau]], came to an end. Recent advances in medical imaging now allow us to quantify the maturation of brain tissue in the fetal stage, and opens a new avenue to understanding the rapid brain development in utero. These developments complement the work already done in imaging at the cellular level in animal and post mortem brain development studies. The fast MRI acquisition techniques are now able to "freeze" the motion of the fetal head during image acquisition. Reconstructing 3D images of the fetal brain is now feasible by using advanced post-processing algorithms. These new 3D images have motivated the development of new techniques for automatically labeling areas developing tissues in MRI data to their precise quantification. These methods were the basis of work to create the first maps of the growth of tissues and some patterns of cortical development in utero. Our work also showed that the estimate of connectome (i.e. the network of the fibers in the brain) in the fetus in utero is now possible. These measurements provide valuable conclusions that complement those from post mortem studies, and also allow the possibility of large population studies on the influence of genes and the maternal environment on early brain development. Colin Studholme, François Rousseau, « [http://dx.doi.org/10.1016/j.ijdevneu.2013.06.006 Quantifying and modelling tissue maturation in the living human fetal brain] », ''International Journal of Developmental Neuroscience'', 2013 f5c9f4174138803a58348d707661e2100837b8ed 0 13 1091 1051 2020-03-31T16:32:36Z Essert 69 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]]. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]]. '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] c7dcd50cf96ff20b0d68f69a44406da327d94e27 1096 1091 2020-03-31T16:35:48Z Essert 69 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 10th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 10th). '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] cbc1bfc159b1ea5c69ed06fafe42bd1cbc1867f3 1097 1096 2020-04-23T13:31:03Z Essert 69 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 20th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 6f82e807a5d04b072d9d6369652e79387d29b1ff 1099 1097 2020-04-30T14:22:40Z Naegel 6 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 20th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[File:2020_DeepTopo_EN.pdf]]|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] bc59976a053fbe0fcb1f829cfc9c42bbbb4be30a 1100 1099 2020-04-30T14:22:49Z Naegel 6 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 20th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[File:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 7eefd459cf6aa1691af5cb1d7aa462e248ab0a0c 1101 1100 2020-04-30T14:22:58Z Naegel 6 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 20th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[:File:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] fb2fdde0cdd565dd80eb7363dceb0d46932ec099 1102 1101 2020-04-30T14:23:15Z Naegel 6 wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] (apply before May 20th). * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] b040de22dc1f9a9106ec2f7a582d300b21701a3d 6 160 1092 2020-03-31T16:33:03Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 161 1093 2020-03-31T16:33:18Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 162 1094 2020-03-31T16:33:32Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 163 1095 2020-03-31T16:33:43Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 164 1098 2020-04-30T14:22:01Z Naegel 6 MsUpload wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 6 164 1103 1098 2020-05-03T13:30:02Z Naegel 6 Naegel uploaded a new version of &quot;[[File:2020 DeepTopo EN.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 1104 1103 2020-05-05T08:12:42Z Naegel 6 Naegel uploaded a new version of &quot;[[File:2020 DeepTopo EN.pdf]]&quot; wikitext text/x-wiki MsUpload 519c08da88276b2f47bc6fb30637d415fd0d804e 0 3 1105 1078 2020-05-29T15:51:55Z Naegel 6 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: [[Benoît Naegel]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' [[fr:Accueil]] b95b710fd77635709c605fb036369bef80d0d392 0 144 1106 968 2020-06-16T10:33:04Z Krahenbuhl 64 wikitext text/x-wiki <big>'''Assistant Professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant<br/> BP 10413 <br/> 67412 Illkirch CEDEX - France<br/> <br/> Tel: + 33 (0) 3 68 81 95 54<br/> Office: '''C 227a''' <br/> Email: '''krahenbuhl (at) unistra (dot) fr'''<br/> Homepage: http://adrien.krahenbuhl.fr<br/> |} </td> <td align=right> [[File:IdentiteAK.jpg|frameless|center]] </td> </table> == Briefly == I'm '''assistant professor''' in computer sciences at University of Strasbourg.<br /> I '''teach''' in department of computer sciences at IUT Robert Schuman.<br /> I conduct my '''research''' in the IMAGeS team of the ICube laboratory.<br /> <br /> Previously I was: <ul> <li>Postdoc in Image et Son team of the LaBRI laboratory in Bordeaux, France,</li> <li>Ph.D student in ADAGIo team of the LORIA laboratory in Nancy.</li> </ul> cfcf662b293bf47aaa7d7e7c8e2df3595095d896 0 13 1107 1102 2020-10-02T07:44:46Z Essert 69 New PhD position added wikitext text/x-wiki '''Positions for 2020 * [[:Media:PhDCE2020-IRCAD-EN.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] (apply before November 1st). * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] c18ba7734107b43e0c0d2d2a41f5ca55518ae433 1127 1107 2021-02-16T16:55:51Z Essert 69 wikitext text/x-wiki '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] (apply before May 20th). * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] eb83c5042919979471a3c282a0fa49ed49c54586 0 1 1110 1 2020-10-20T14:19:43Z Admin 1 Redirected page to [[Home]] wikitext text/x-wiki #REDIRECT [[Home]] 3c9846fc91826543c49e08653ad8ca1614c26b9e 0 125 1111 846 2020-10-20T14:37:33Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous#hideMenu" /> [[fr:Toutes les publications]] da25ea03c48c95a4bb7a2c1a3e2334cf23848fa5 0 124 1112 845 2020-10-20T14:38:04Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_thesis=true#hideMenu" /> [[fr:Thèses et HDR]] 5e0ea15955a1ed89ecea88fae6193b6f5c936280 0 123 1113 842 2020-10-20T14:38:28Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true#hideMenu" /> [[fr:Conférences]] 9c30809e9cef4c6141ed6a16fe6ebd96c6d02be1 0 121 1114 838 2020-10-20T14:38:52Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true#hideMenu" /> a44b1da7a71404d32493b4768775128f94f3cd0a 1115 1114 2020-10-20T14:39:16Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true#hideMenu" /> adf9a53374dc4febd5bdadc78bfa46737fc43e63 0 122 1116 841 2020-10-20T14:39:41Z Admin 1 wikitext text/x-wiki <iframe key="papr" path="?author=&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_books=true#hideMenu" /> [[fr:Ouvrages]] ea683288e11fcb3e83cb24e931fbe35a0a201493 0 147 1117 973 2020-10-21T07:58:26Z Admin 1 /* Publications */ wikitext text/x-wiki <big>'''Ingenieur de Recherches'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 7 83 47 28 11<br /> Office: '''B 221''' <br /> E-mail: '''bhanot(at)unistra(dot)fr'''<br />Website: '''http://icube-miv.unistra.fr/fr/index.php/Argheesh_Bhanot'''<br /> |} </td> <td align=right> [[File:profil.png|frameless|center]] </td> </table> == Description of Activities == == Publications == <iframe key="papr" path="?author=noblet&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous#hideMenu" /> a62de9a7d395b4f81cf40a1ecf6d829c5ef30cfa 100 30 1118 874 2020-10-23T12:51:59Z Admin 1 wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret [http://lsiit-miv.u-strasbg.fr/paseo/ The IPSEO Research Group] [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] 24112e33df91590cc8da9419d4d1755b592dc547 0 4 1119 996 2020-10-23T12:53:53Z Admin 1 wikitext text/x-wiki <iframe key="intranet" path="fr/directory/trombi/images" /> 3c19a334ab5be8e9161abcf72e8ab231e55f95f4 100 56 1120 1079 2020-10-23T13:00:34Z Admin 1 /* Publications */ wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhattacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, Cyril Meyer, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <iframe key="papr" path="?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu" /> 745eb4ed71a7c3a415fe155ed6c2f2da76167ba9 100 47 1121 1081 2020-10-23T13:01:12Z Admin 1 /* Publications */ wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Etienne_Le_Quentrec|LE QUENTREC Etienne]], [[Cyril_Meyer|MEYER Cyril]] </td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <iframe key="papr" path="?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu" /> [[fr:Géométrie discrète et morphologie mathématique]] 6eb86b292167902fe45a7077d4767dd719e10882 0 16 1122 42 2020-10-23T13:22:27Z Admin 1 wikitext text/x-wiki See the [https://images.icube.unistra.fr/index.php/S%C3%A9minaires french page] to have a look on our past and future seminaries. [[fr:Séminaires]] 6be790178f88aae81627bcb46940934a31c56edd 0 55 1124 1013 2020-12-02T15:25:47Z Admin 1 /* Publications */ wikitext text/x-wiki <big>'''Associate professor''' </big> <table width=100%> <tr> <td> {| Class = "wikitable" |- | ICube - MIV <br/> 300 Bd Sébastien Brant <br/> BP 10413 <br/> 67412 Illkirch CEDEX - France <br/><br/> Tel: + 33 (0) 3 68 85 44 94 <br/> Fax: + 33 (0) 3 68 85 44 55 <br/> Office: '''C221''' <br/> Email: '''baudrier (at) unistra (dot) fr''' <br/> Homepage: [[Etienne_Baudrier|http://icube-miv.unistra.fr/en/index.php/Etienne_Baudrier]] <br/> |} </td> <td align=right> [[File: identiteEB.jpg | 150px]] </td> </table> == Research Activity == <big> Research topics: </big> * Discrete Geometry * Tomography ** Geometric properties without reconstruction ** Three-dimensional reconstruction of macromolecules using electron microscopy * Mathematical Morphology In the multidimensional framework * Multiresolution analysis based on non-linear operators from mathematical morphology * Geometric Algebra for the image (wiki) * Comparison of binary images ** Local dissimilarity measure (workgroup Calypod) ** Image Quality <big> Research Projects </big> * TomoMicro, ''Interdisciplinary Exploratory Project for Mathematical, Biology and Computing'' of CNRS about tomographic reconstruction for cryo-electron microscopy * KIDICO (2011-2014) Integration of knowledge for discrete convolution, segmentation and reconstruction of information in digital images, ''white ANR project'' <big>Database</big><br /> Here is a test database of 2D gray-level images. It is composed of 50 images for each of the following resolutions : 16x16, 32x32, 64x64, 128x128 and 256x256. <br /> Download [http://icube-miv.unistra.fr/en/images/c/cc/DB_50_gray_images_5_resol.zip here]. Exemaple of an image from the database === Supervision === ==== Proposal internship ==== The proposition are closed for 2013. ==== Theses in progress ==== {| Class = "wikitable" |- | 2012-2015 || [http://icube-miv.unistra.fr/fr/index.php/PHAN_Minh_Son Minh Son PHAN] || co-supervision with Prof. [[Mohamed TAJINE]] || tomographic reconstruction of articulated from non-object oriented projections |- | 2013-2016 || Hamida ROJBANI || co-supervision with Prof. [[Christian Ronse | Christian Ronse]] and [[Benoît Naegel | Benoît NAEGEL]] jointly supervised with Dr. Atef Hamouda and Prof. Khaled BSAIES || Pattern Recognition in volumetric images in grayscale - Application to cell biological imaging. |} ==== Internships and research projects ==== {| Class = "wikitable" |- | 2018 || Cyrille MULLER|| research internship || M1 ||Parallélisation GPU du code de reconstruction tomographique conjointe |- | 2018 || Chouaib FELLAH || research internship|| M1 || Utilisation de DGtal pour l’évaluation des estimateurs avec le dual |- | 2018 || Etienne LE QUENTREC|| research internship || M2 || [http://images.icube.unistra.fr/fr/img_auth.php/a/a1/SujetM2_2018_BMT.pdf Comportement multirésolution des estimateurs de longueurs dans l’espace discret 2D ] |- | 2017 || Elyes ATEB|| academic internship || M2 || Utilisation de DGtal pour l’évaluation des estimateurs avec le dual |- | 2017 || Lucas LAZARE|| research internship || M1 || Reconstruction conjointe fréquentielle |- | 2017 || [https://fr.linkedin.com/in/leobouaillon/fr Léo BOUAILLON]|| research internship || M1 || Dual de l’ensemble des discrétisations à une transformation rigide près |- | 2017 ||[https://fr.linkedin.com/in/guillaume-decor-a02b7a150 Guillaume DECOR]|| TER || M1 ||Polygone et discrétisation |- | 2017 || Tarek AOULAD-MANSOUR|| TER || M1 ||Génération de toutes les discrétisations d'une courbe plane |- | 2016 || Cyrille MULLER|| research internship || L3 ||optimisation et amélioration du code de reconstruction tomographique conjointe |- | 2016 || Jean-Romain LUTTRINGER|| research internship || L3 ||parallélisation et portage sur grille HP du code de reconstruction tomographique conjointe |- | 2015 || Renan LAURETI|| research internship|| Magistère de math, 1A || variabilité par translation des discrétisations d’une courbe plane |- | 2015 || [https://fr.linkedin.com/in/leobouaillon/fr Léo BOUAILLON]|| research internship || L3 || interface pour la pré-image d'un segment discret |- | 2015 || Caroline RUDOLF|| research internship || L3 || Estimation de la longueur de toutes les discrétisations d'une courbe |- | 2015 || Sahar HAOUAS || research internship (PFE) || M2 || Reconstruction tomographique par Quadtree à partir de projections non-orientées |- | 2015 || Zied ZOUCH || research internship (PFE) || M2 || Estimation des orientations et des déformations à partir de projections tomographiques non-orientées |- | 2014 || Jérémy BERNARD || academic internship || M1 || Interface and generation of all the discretizations of a curve |- | 2014 || Maxime ABOVILLIER || research internship || M1 || tomographic reconstruction from non-oriented projections: speedup by multirésolution |- | 2014 || [https://edite-de-paris.fr/public/person/see/3373780 Bacem BEN CHEIKH] || research internship || M2 || Reconstruction tomographique à partir de projections non-orientées : cas continu 3D |- | 2013 || Bacem BEN CHEIKH || research internship || M2 || tomographic reconstruction from non-oriented projections: continuous case |- | 2012 || Nicolas AUBRY || research internship || M2 || Discrete Modeling Radon transform 2D and 3D, implementation |- | 2012 || WU Shan || internship lab || ENSIEE, 2A || Optimization for tomographic reconstruction |- | 2012 || Grégory Apou || research internship || M1 || cell tracking |- | 2012 || Meryem FATICH || TER || M1 || tomographic reconstruction from non-oriented projections: deformable case |- | 2011 || Célia FILLION || research internship || M2 || tomographic reconstruction of a macromolecule with its projections by cryo-electron microscopy |- | 2011 || Malo DOUONDA || TER || M1 || Trees forms for the detection of changes: implementation and experiments |- | 2010 || Diane HOEHLINGER || TER || M1 ||Grayscale distance transform and measuring image quality |- | 2010 || [http://www-irma.u-strasbg.fr/~buhren/ Jérôme VON BUHREN] || research internship || Magisterium of mathémathique, 1A | | tomographic consistency Property |- | 2007 || [http://l3i.univ-larochelle.fr/Girard-Nathalie.html Nathalie Girard] || research internship || M2 || Evaluation perceptual quality of the image based on the spatial information local |} == Publications == <iframe key="papr" path="?author=baudrier&title=&labo=4&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous#hideMenu " /> [[fr:Etienne Baudrier]] 6f6d9b80a8b176c5d808bf0f991e986931cddeed 0 157 1125 1083 2021-01-04T11:50:34Z Cmeyer 72 /* Teaching */ wikitext text/x-wiki <big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ website]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL_MEYER_2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [http://www.igbmc.fr/Schultz/ Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Conception de documents et d'interfaces numériques (W11) : DUT in Computer Science * Introduction aux bases de données (D11) : DUT Informatique == Publications == <anyweb> http://icube-publis.unistra.fr/?author=Cyril+Meyer&allaut=or&title=&team=&platform=&national=&project=&tagmed=&year1=2015&year2=&=#hideMenu </anyweb> 324126382fe2d4909f006b9fd41cbba38c7940ea 0 12 1126 1087 2021-02-16T16:48:04Z Essert 69 /* Internship available for 2020 */ wikitext text/x-wiki == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 648322b3be41773d08da8ba7437a1245d4ef32c0 8 2 1130 1047 2021-04-20T09:08:51Z Admin 1 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations * Platforms ** http://plateforme.icube.unistra.fr/iris/index.php/Accueil|IRIS ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS * LANGUAGES 65b1fcd0e92ade51b9db03b82c18e0254bbbe670 0 37 1131 1039 2021-04-20T12:08:43Z Heinric 85 Replaced content with "[[fr:Christian Heinrich]] Professor <br> ICube - IMAGeS<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br>..." wikitext text/x-wiki [[fr:Christian Heinrich]] Professor <br> ICube - IMAGeS<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Room: C 209<br> Tel: 03 68 85 44 88<br> <br> Email : christian (dot) heinrich (at) unistra (dot) fr <P> <br> For more information, please see the page in French. <br> 257d53e435bfa2fede7627a81ff5a7996245729b 6 165 1132 2021-04-21T16:32:18Z Elequentrec 86 wikitext text/x-wiki photo Liban 124f167ccec00d9d4d58b1c2479e2c5b8ef56a06 0 166 1133 2021-05-01T12:16:39Z Elequentrec 86 Created page with "<big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[Fichier:Identite le quentrec.jpg|vignette]] | ICube - MIV<br /> 300 Bd Sébastien Brant<br /..." wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[Fichier:Identite le quentrec.jpg|vignette]] | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==Encadrement== *Directeur de thèse **Mohamed Tajine *Encadrants **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Sujet de Thèse :== Lorsqu’un objet est pris en photos, l’image obtenue est pixelisée et est alors décrite par des coordonnées réelles. Beaucoup d’informations sont ainsi perdues. L’objectif de ma thèse est d’estimer les caractéristiques géométriques de l’objet de départ ( comme son périmètre) ne connaissant que sa discrétisation. Plus précisément, je cherche, en modélisant le processus de discrétisation, à garantir des majorations de l’erreur d’estimation des caractéristiques géométriques. Mes travaux de thèse ont consisté à introduire une famille des formes (incluant formes régulières et polygonales) dont la courbure du bord est contrôlée, puis à démontrer que la topologie de leur discrétisation était préservée et à garantir la robustesse d’estimateurs de longueur et d’intégrale curviligne sur cette famille de formes. *Mots-clefs : géométrie discrète, préservation de la topologie, estimation de longueur, estimation d’intégrale curviligne, courbure. == Formation :== * Baccalauréat 2011 (Vannes) * Classes préparatoires MPSI-MP* 2011-2013 (Brest) * Licence 2014 (Strasbourg) * Agrégation externe de mathématiques 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Enseignement :== === [https://mathinfo.unistra.fr/ UFR de mathématiques et d'informatique de Strasbourg] :=== *2018-2019 ** TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2019-2020 ** TD et TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TD et TP Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Analyse Numérique Appliquée] (Licence 3 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2020-2021 ** TP bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Culture et Pratique de l'Informatique] (Licence 1 mathématiques-informatique) ** TD, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Structures de Données et Algorithmiques 1] (Licence 2 informatique) ** TP C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Techniques de Développement] (Licence 2 informatique) == Participation aux conférences et aux événements scientifiques:== * Conférence [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (à venir) * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2019] * Conférence [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Formation scientifique durant le doctorat:== * Conférence [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2021] * [https://ejcim2020.sciencesconf.org/ École Jeunes Chercheurs en Informatique 2020] * [https://conferences.cirm-math.fr/1991.html École Jeunes Chercheurs en Informatique Mathématique 2019] ==Divers:== *Président et co-fondateur de l'association doctorantes Association des Jeunes Chercheurs d'ICube *Participation aux cafés pédagogiques (animés par [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] à l'ufr) *Participation à la [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] au Vaisseau ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> 32129e76ea072102f2b9988857abd5b7d5ad0d5e 1134 1133 2021-05-01T12:19:01Z Elequentrec 86 wikitext text/x-wiki <big>'''Doctorant'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==Encadrement== *Directeur de thèse **Mohamed Tajine *Encadrants **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Sujet de Thèse :== Lorsqu’un objet est pris en photos, l’image obtenue est pixelisée et est alors décrite par des coordonnées réelles. Beaucoup d’informations sont ainsi perdues. L’objectif de ma thèse est d’estimer les caractéristiques géométriques de l’objet de départ ( comme son périmètre) ne connaissant que sa discrétisation. Plus précisément, je cherche, en modélisant le processus de discrétisation, à garantir des majorations de l’erreur d’estimation des caractéristiques géométriques. Mes travaux de thèse ont consisté à introduire une famille des formes (incluant formes régulières et polygonales) dont la courbure du bord est contrôlée, puis à démontrer que la topologie de leur discrétisation était préservée et à garantir la robustesse d’estimateurs de longueur et d’intégrale curviligne sur cette famille de formes. *Mots-clefs : géométrie discrète, préservation de la topologie, estimation de longueur, estimation d’intégrale curviligne, courbure. == Formation :== * Baccalauréat 2011 (Vannes) * Classes préparatoires MPSI-MP* 2011-2013 (Brest) * Licence 2014 (Strasbourg) * Agrégation externe de mathématiques 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Enseignement :== === [https://mathinfo.unistra.fr/ UFR de mathématiques et d'informatique de Strasbourg] :=== *2018-2019 ** TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2019-2020 ** TD et TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TD et TP Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Analyse Numérique Appliquée] (Licence 3 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2020-2021 ** TP bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Culture et Pratique de l'Informatique] (Licence 1 mathématiques-informatique) ** TD, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Structures de Données et Algorithmiques 1] (Licence 2 informatique) ** TP C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Techniques de Développement] (Licence 2 informatique) == Participation aux conférences et aux événements scientifiques:== * Conférence [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (à venir) * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2019] * Conférence [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Formation scientifique durant le doctorat:== * Conférence [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2021] * [https://ejcim2020.sciencesconf.org/ École Jeunes Chercheurs en Informatique 2020] * [https://conferences.cirm-math.fr/1991.html École Jeunes Chercheurs en Informatique Mathématique 2019] ==Divers:== *Président et co-fondateur de l'association doctorantes Association des Jeunes Chercheurs d'ICube *Participation aux cafés pédagogiques (animés par [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] à l'ufr) *Participation à la [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] au Vaisseau ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> b3c558b6924b8ff2974551cfe37d9e6fc5a56130 1135 1134 2021-05-01T12:33:18Z Elequentrec 86 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==Encadrement== *PhD director **Mohamed Tajine *PhD supervisors **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Thesis subject :== When an object is numerically captured, the resulting image is pixelated and is described by integral coordinates. A lot of information is then lost. The goal of my thesis is to estimate the geometric features of the initial object (such as its perimeter) knowing only its digitization. More precisely, by modeling the digitization process, we are aiming to guarantee bounds on the estimation error of the geometric features. My work consists in introducing a new family of shapes (including regular shapes and polygons) whose boundary curvature is bounded, in proving the preservation of the topology of the digitization and in guaranteeing the robustness of length estimation and line integral on this family of shape. keyword: digital geometry, topology preservation, length estimation, line integral estimation, curvature. == Formation :== * Baccalauréat 2011 (Vannes) * Classes préparatoires MPSI-MP* 2011-2013 (Brest) * Licence 2014 (Strasbourg) * Agrégation externe de mathématiques 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Enseignement :== === [https://mathinfo.unistra.fr/ UFR de mathématiques et d'informatique de Strasbourg] :=== *2018-2019 ** TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2019-2020 ** TD et TP Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logique et Programmation Logique] (Licence 2 informatique) ** TD et TP Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Analyse Numérique Appliquée] (Licence 3 informatique) ** TP Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmique et Structures de Données] (Licence 1 mathématiques) *2020-2021 ** TP bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Culture et Pratique de l'Informatique] (Licence 1 mathématiques-informatique) ** TD, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Structures de Données et Algorithmiques 1] (Licence 2 informatique) ** TP C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Techniques de Développement] (Licence 2 informatique) == Participation aux conférences et aux événements scientifiques:== * Conférence [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (à venir) * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2019] * Conférence [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Formation scientifique durant le doctorat:== * Conférence [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Réunion du GT Géométrie Discrète Morphologie Mathématique 2021] * [https://ejcim2020.sciencesconf.org/ École Jeunes Chercheurs en Informatique 2020] * [https://conferences.cirm-math.fr/1991.html École Jeunes Chercheurs en Informatique Mathématique 2019] ==Divers:== *Président et co-fondateur de l'association doctorantes Association des Jeunes Chercheurs d'ICube *Participation aux cafés pédagogiques (animés par [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] à l'ufr) *Participation à la [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] au Vaisseau ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> a7b39e7f2322927032debbeed0ee2a9a82a73975 1136 1135 2021-05-01T12:50:13Z Elequentrec 86 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==PhD supervision== *PhD director **Mohamed Tajine *PhD supervisors **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Thesis subject :== When an object is numerically captured, the resulting image is pixelated and is described by integral coordinates. A lot of information is then lost. The goal of my thesis is to estimate the geometric features of the initial object (such as its perimeter) knowing only its digitization. More precisely, by modeling the digitization process, we are aiming to guarantee bounds on the estimation error of the geometric features. My work consists in introducing a new family of shapes (including regular shapes and polygons) whose boundary curvature is bounded, in proving the preservation of the topology of the digitization and in guaranteeing the robustness of length estimation and line integral on this family of shape. keyword: digital geometry, topology preservation, length estimation, line integral estimation, curvature. ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> 22dd28fd11e97ae5c9702e02e0dc84d911b2734a 1137 1136 2021-05-26T09:25:56Z Elequentrec 86 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==PhD supervision== *PhD director **Mohamed Tajine *PhD supervisors **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Thesis subject :== When an object is numerically captured, the resulting image is pixelated and is described by integral coordinates. A lot of information is then lost. The goal of my thesis is to estimate the geometric features of the initial object (such as its perimeter) knowing only its digitization. More precisely, by modeling the digitization process, we are aiming to guarantee bounds on the estimation error of the geometric features. My work consists in introducing a new family of shapes (including regular shapes and polygons) whose boundary curvature is bounded, in proving the preservation of the topology of the digitization and in guaranteeing the robustness of length estimation and line integral on this family of shape. keyword: digital geometry, topology preservation, length estimation, line integral estimation, curvature. ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> == Education :== * Baccalauréat 2011 (Vannes) * Preparatory schools to postgraduate schools 2011-2013 (Brest) * Bachelor Degree 2014 (Strasbourg) * Agrégation externe (teacher degree) in math 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Teaching :== === [https://mathinfo.unistra.fr/ UFR de mathématiques et d'informatique de Strasbourg] :=== *2018-2019 ** Practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming ] (2nd y. Undergraduate computer sciences) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2019-2020 ** Theoretical and practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming] (2nd y. Undergraduate computer sciences) ** Theoretical and practical exercises Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Applied Numerical Analysis] (3rd y. Undergraduate computer sciences ) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2020-2021 ** Practical exercises bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Introduction to Computer Sciences and to Bash Scripts] (1st y. Undergraduate math and computer sciences) ** Theoretical exercises, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Algorithms and Data Structures] (2nd y. Undergraduate computer sciences) ** Practical exercises C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Tools for programming] (2nd y. Undergraduate computer sciences) == Participation to conferences and scientific events:== * Conference [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (may 2021) * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2019] * Conference [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Education during Thesis:== * Conference [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2021] * [https://ejcim2020.sciencesconf.org/ Young Researchers School in Mathematical Computer Sciences 2020] * [https://conferences.cirm-math.fr/1991.html Young Researchers School in Mathematical Computer Sciences 2019] ==Divers:== *President et co-founder of the association of young researchers of ICube *Participation to pedagogy workshop (animated by [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] ) *Participation to [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> fd44b9974588a10845e213d3fd2fd3e4e36831a8 1138 1137 2021-05-26T09:27:09Z Elequentrec 86 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==PhD supervision== *PhD director **Mohamed Tajine *PhD supervisors **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Thesis subject :== When an object is numerically captured, the resulting image is pixelated and is described by integral coordinates. A lot of information is then lost. The goal of my thesis is to estimate the geometric features of the initial object (such as its perimeter) knowing only its digitization. More precisely, by modeling the digitization process, we are aiming to guarantee bounds on the estimation error of the geometric features. My work consists in introducing a new family of shapes (including regular shapes and polygons) whose boundary curvature is bounded, in proving the preservation of the topology of the digitization and in guaranteeing the robustness of length estimation and line integral on this family of shape. keyword: digital geometry, topology preservation, length estimation, line integral estimation, curvature. ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> == Education :== * Baccalauréat 2011 (Vannes) * Preparatory schools to postgraduate schools 2011-2013 (Brest) * Bachelor Degree 2014 (Strasbourg) * Agrégation externe (teacher degree) in math 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Teaching :== === [https://mathinfo.unistra.fr/ Faculty of mathematics and computer sciences of Strasbourg] :=== *2018-2019 ** Practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming ] (2nd y. Undergraduate computer sciences) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2019-2020 ** Theoretical and practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming] (2nd y. Undergraduate computer sciences) ** Theoretical and practical exercises Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Applied Numerical Analysis] (3rd y. Undergraduate computer sciences ) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2020-2021 ** Practical exercises bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Introduction to Computer Sciences and to Bash Scripts] (1st y. Undergraduate math and computer sciences) ** Theoretical exercises, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Algorithms and Data Structures] (2nd y. Undergraduate computer sciences) ** Practical exercises C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Tools for programming] (2nd y. Undergraduate computer sciences) == Participation to conferences and scientific events:== * Conference [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (may 2021) * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2019] * Conference [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Education during Thesis:== * Conference [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2021] * [https://ejcim2020.sciencesconf.org/ Young Researchers School in Mathematical Computer Sciences 2020] * [https://conferences.cirm-math.fr/1991.html Young Researchers School in Mathematical Computer Sciences 2019] ==Divers:== *President et co-founder of the association of young researchers of ICube *Participation to pedagogy workshop (animated by [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] ) *Participation to [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> 0695c23d43a3aacbbfe2470602094481acce8130 1140 1138 2021-05-26T09:42:24Z Elequentrec 86 wikitext text/x-wiki <big>'''PhD Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- [[File:Identite.jpg|thumb]] | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Bureau : '''C226''' <br /> Courriel : '''elequentrec(at)unistra(dot)fr'''<br /> |} </td> </table> ==PhD supervision== *PhD director **Mohamed Tajine *PhD supervisors **[[Etienne_Baudrier|Etienne Baudrier]] **[[Loic_Mazo|Loïc Mazo]] ==Thesis subject :== When an object is numerically captured, the resulting image is pixelated and is described by integral coordinates. A lot of information is then lost. The goal of my thesis is to estimate the geometric features of the initial object (such as its perimeter) knowing only its digitization. More precisely, by modeling the digitization process, we are aiming to guarantee bounds on the estimation error of the geometric features. My work consists in introducing a new family of shapes (including regular shapes and polygons) whose boundary curvature is bounded, in proving the preservation of the topology of the digitization and in guaranteeing the robustness of length estimation and line integral on this family of shape. keyword: digital geometry, topology preservation, length estimation, line integral estimation, curvature. ==Publications :== <iframe key="papr" path="?author=le+quentrec&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> == Education :== * Baccalauréat 2011 (Vannes) * Preparatory schools to postgraduate schools 2011-2013 (Brest) * Bachelor Degree 2014 (Strasbourg) * Agrégation externe (teacher degree) in math 2016 (Strasbourg) * Master 2 Research and Innovation 2016-2017(Toulouse) * Master 2 MAPI3 2017-2018 (Toulouse) ==Teaching :== === [https://mathinfo.unistra.fr/ Faculty of mathematics and computer sciences of Strasbourg] :=== *2018-2019 ** Practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming ] (2nd y. Undergraduate computer sciences) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2019-2020 ** Theoretical and practical exercises Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logical Programming] (2nd y. Undergraduate computer sciences) ** Theoretical and practical exercises Scilab, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26087/ Applied Numerical Analysis] (3rd y. Undergraduate computer sciences ) ** Practical exercises Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithms and Data Structures] (1st y. Undergraduate math) *2020-2021 ** Practical exercises bash, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN25955/ Introduction to Computer Sciences and to Bash Scripts] (1st y. Undergraduate math and computer sciences) ** Theoretical exercises, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Algorithms and Data Structures] (2nd y. Undergraduate computer sciences) ** Practical exercises C, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Tools for programming] (2nd y. Undergraduate computer sciences) == Participation to conferences and scientific events:== * Conference [https://www.dgmm2021.se/ Discrete Geometry and Mathematical Morphology 2021] (may 2021) * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2019] * Conference [https://dgci2019.sciencesconf.org/ Discrete Geometry for Computer Imagery 2019] == Education during Thesis:== * Conference [https://dgdvc.sciencesconf.org/ Digital Geometry and Discrete Variational Calculus] * [http://gt-gdmm.u-bordeaux.fr/ Meeting of french group of research Digital Geometry and Mathematical Morphology 2021] * [https://ejcim2020.sciencesconf.org/ Young Researchers School in Mathematical Computer Sciences 2020] * [https://conferences.cirm-math.fr/1991.html Young Researchers School in Mathematical Computer Sciences 2019] ==Divers:== *President et co-founder of the association of young researchers of ICube *Participation to pedagogy workshop (animated by [https://igg.icube.unistra.fr/index.php/Basile_Sauvage Basile Sauvage] ) *Participation to [https://www.fetedelascience.fr/programme?identifiant=68803573 Fête de la Science 2019] 5427a7b8923a6fdf9b823feac5b95d8dd5bfb3b8 6 167 1139 2021-05-26T09:32:50Z Elequentrec 86 wikitext text/x-wiki CV 8963b0f409c3a3fda6cdee265e282d666bc239f6 0 24 1141 884 2021-07-02T14:03:37Z Admin 1 wikitext text/x-wiki [[File:RonseLuminy.jpg|thumbnail]] [[fr:Christian Ronse]] Professor<br> ICube - MIV<br> Pôle API<br> 300, Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> <br> Office : C228a<br> Tel : 03.68.85.45.00<br> Fax : 03.68.85.44.55<br> <br> Email : cronse@unistra.fr<br> Url : http://dpt-info.u-strasbg.fr/~cronse/ <P> <big>'''Teaching'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/Combi/cb.html Combinatorics], [http://dpt-info.u-strasbg.fr/~cronse/Graph/tg.html Graphs], [http://dpt-info.u-strasbg.fr/~cronse/LOGL2/logl2.html Logic], [http://dpt-info.u-strasbg.fr/~cronse/TL/ Theory of Computing], [http://dpt-info.u-strasbg.fr/~cronse/TIDOC/index.html Image Processing] ([http://dpt-info.u-strasbg.fr/~cronse/TIX/index.html exams]), Computer Science English. </P> <P> <big>'''Research'''</big><br> Image analysis, [http://dpt-info.u-strasbg.fr/~cronse/THEORIE/theorie.htm mathematical morphology], ordered sets and lattices.<br> '''Theses''': C. Boos (2000/03/01), V. Agnus (2001/10/23), B. Naegel (2004/10/15), N. Passat (2005/09/28), J. Lamy (2005/11/18), E. Aptoula (2008/07/10), B. Bouraoui (2009/10/22), L. Mazo (2011/12/01), A. Dufour (2013/10/10), H. Rojbani (2016/11/28). </P> <P> <big>'''Publications'''</big><br> [http://dpt-info.u-strasbg.fr/~cronse/publist.html Complete list] </P> <iframe key="papr" path="?author=ronse&title=&labo=tous&team=toutes&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous#hideMenu /> 711366efc4a264ad662b1304a9c461e114662de4 0 6 1142 1069 2021-07-08T08:52:06Z Vincent.noblet 74 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu</anyweb> === Conferences === <anyweb>http://newlsiit.u-strasbg.fr/papr/appli.php?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu</anyweb> e5778226f445429947c08f59b399aac6ae92bfa2 1143 1142 2021-07-08T08:53:46Z Vincent.noblet 74 /* Publications */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:VNoblet.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu" /> === Conferences === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu" /> 2acbced428c5ab9adf5c18362e4e2f7df146642c 1144 1143 2021-07-08T08:55:29Z Vincent.noblet 74 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:moiNB.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu" /> === Conferences === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu" /> 0be6c27dccbefad65178d22407cd9c0794af2c40 1157 1144 2021-09-25T20:46:00Z Vincent.noblet 74 wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:PhotoPerso.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Early assessment of tumor growth from post-surgical residues of glioblastomas in DT-MRI", Thesis of [[Céline Heimburger]] (2015-), Co-direction with Izzie Jacques Namer * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-), Co-direction with Frédéric Blanc * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun defended thesis: * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu" /> === Conferences === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu" /> 1cf8ec37dcd97ba1408eba8fef149d05a34c1f56 0 168 1145 2021-08-31T08:56:34Z Kaifeng.zou 89 Created page with "<big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - Fran..." wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image wish machine learning ''' f2814a4ffa2c3ac158068ada58f293a58f6349f7 1146 1145 2021-08-31T08:58:20Z Kaifeng.zou 89 wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image with machine learning ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.creatis.insa-lyon.fr/~valette/public/ Sébastien Valetten] PhD Supervisor: [https://images.icube.unistra.fr/en/index.php/Sylvain_Faisan Sylvain Faisan] 5750128f869af6e2356c39ad473321a57052aba5 1147 1146 2021-08-31T08:59:02Z Kaifeng.zou 89 wikitext text/x-wiki <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image with machine learning ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.creatis.insa-lyon.fr/~valette/public/ Sébastien Valetten] PhD Supervisor: [https://images.icube.unistra.fr/en/index.php/Sylvain_Faisan Sylvain Faisan] 9d25bd223a92bb45711c6c0ae9a22b4f499ee4cf 1148 1147 2021-08-31T09:03:56Z Kaifeng.zou 89 wikitext text/x-wiki [[fr:Kaifeng Zou]] <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image with machine learning ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.creatis.insa-lyon.fr/~valette/public/ Sébastien Valetten] PhD Supervisor: [https://images.icube.unistra.fr/en/index.php/Sylvain_Faisan Sylvain Faisan] cf185bd5a5b35fdd3fdf8cd248c26b19c7a35ff8 1149 1148 2021-08-31T09:05:47Z Kaifeng.zou 89 Kaifeng.zou moved page [[User:Kaifeng.zou]] to [[Kaifeng zou]] wikitext text/x-wiki [[fr:Kaifeng Zou]] <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image with machine learning ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.creatis.insa-lyon.fr/~valette/public/ Sébastien Valetten] PhD Supervisor: [https://images.icube.unistra.fr/en/index.php/Sylvain_Faisan Sylvain Faisan] cf185bd5a5b35fdd3fdf8cd248c26b19c7a35ff8 1151 1149 2021-08-31T09:06:02Z Kaifeng.zou 89 Kaifeng.zou moved page [[Kaifeng zou]] to [[Kaifeng Zou]] wikitext text/x-wiki [[fr:Kaifeng Zou]] <big>'''Phd Student'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France <br /><br /> Tel : + 33 (0) 6 14 78 85 12<br /> <br /> Bureau : '''B 223''' <br /> Courriel : '''kaifeng.zou(at)unistra(dot)fr'''<br /> |} == PhD Title == '''Age and Sex Estimation from CT image with machine learning ''' PhD Guides : [http://icube-miv.unistra.fr/fr/index.php/Fabrice_Heitz Fabrice Heitz] and [https://www.creatis.insa-lyon.fr/~valette/public/ Sébastien Valetten] PhD Supervisor: [https://images.icube.unistra.fr/en/index.php/Sylvain_Faisan Sylvain Faisan] cf185bd5a5b35fdd3fdf8cd248c26b19c7a35ff8 2 169 1150 2021-08-31T09:05:47Z Kaifeng.zou 89 Kaifeng.zou moved page [[User:Kaifeng.zou]] to [[Kaifeng zou]] wikitext text/x-wiki #REDIRECT [[Kaifeng zou]] 896967a9d81bbfa514f5e79b62df6b50f490cfe1 0 170 1152 2021-08-31T09:06:02Z Kaifeng.zou 89 Kaifeng.zou moved page [[Kaifeng zou]] to [[Kaifeng Zou]] wikitext text/x-wiki #REDIRECT [[Kaifeng Zou]] b60296356620e7d737502f3d66d23ca6c04c9409 6 171 1153 2021-09-25T16:10:48Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 151 1154 1033 2021-09-25T16:11:24Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Lab of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] daeb4f7a6b0ffa3e781e9fb0d9e6c63ca3b17a4f 1155 1154 2021-09-25T16:15:37Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at the [http://icube.unistra.fr ICube] Institute of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 9a4d5bdbbb5fbc01844f0371d9ac69f53eddc4c5 1156 1155 2021-09-25T16:15:48Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Associate professor, PhD, Habil. in computer science, at [http://icube.unistra.fr ICube] Institute of the [http://www.unistra.fr University of Strasbourg] since 2003. ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010. {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, since 2017 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 6b53b22c5ab45a11e7e6abf20380f21ec5548192 0 6 1158 1157 2021-10-11T07:21:12Z Vincent.noblet 74 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:PhotoPerso.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun * "Semantic segmentation of 3D CT images of the lung using deep learning.", Thesis of Adrien Heitz (2020-), Co-direction with Fabrice Heitz (director). CIFRE thesis with Visible Patient. * "Analysis of mouse brain MRI by deep learning. Application to the characterization of mouse models for the study of chronic pain comorbidity and anxiety disorders.", Thesis of Franck Valentini.(2021-), Co-direction with Laura Harsan. defended thesis: * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-2021), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-2021), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-2019), Co-direction with Frédéric Blanc * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu" /> === Conferences === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu" /> a2f14aae70f5d4d06a4a11c62c7bb78a11828156 1159 1158 2021-10-11T07:27:43Z Vincent.noblet 74 /* PhD thesis supervision */ wikitext text/x-wiki [[fr:Vincent_Noblet]] <big>'''Research Engineer - HDR'''</big> <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [[Biomedical image processing]] group <br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [https://gaia.icube.unistra.fr GAIA] platform<br /> &nbsp; &nbsp; &nbsp; &nbsp;Head of [http://plateforme.icube.unistra.fr/iris/index.php/Informatique_et_traitement_d%27images computer science and image processing] department of [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS] platform <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - IMAGeS<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /> '''Illkirch site: ''' <br /> Phone: + 33 (0) 3 68 85 44 89<br /> Office: C211 <br /> '''IPB site: ''' <br /> Phone: + 33 (0) 3 68 85 40 42<br /> Office: 109 <br /> E-mail: '''vincent(dot)noblet(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:PhotoPerso.jpg|frameless|center]] </td> </table> == Description of activities == My research activities in the IMAGeS team are within the field of [[Biomedical image processing]] and cover two main areas: * image registration * change detection in image sequences Furthermore, as part of my activities within the [http://plateforme.icube.unistra.fr/iris/index.php/Accueil IRIS plateform], I bring my expertise to the investigation of various problems in neuroscience requiring the setting up of appropriate image processing pipelines and the exploitation of large image databases. == Course == {| |- | Since 2005 || : Research Engineer, CNRS, ICube |- | june 2015 || : [http://icube-publis.unistra.fr/docs/9456/HDR-Noblet.pdf Habilitation degree] , UDS, Strasbourg |- | 2002 - 2006 || : [http://icube-publis.unistra.fr/docs/1469/these_noblet.pdf PhD degree], LSIIT, UMR 7005, ULP, Strasbourg |- | 2001 - 2002 || : master degree in Mechanics and Engineering, Biomechanics option, ULP, Strasbourg |- | 1999 - 2002 || : Engineer degree from ENSPS (Ecole Nationale Supérieure de Physique de Strasbourg) |} == PhD thesis supervision == current thesis: * "Unified framework for change detection in multimodal brain MRI. Application to the follow-up of multiple sclerosis patients", Thesis of Eléonore Dufresne, (2018-), Co-direction with Stéphane Kremer, supervisor: Denis Fortun * "Semantic segmentation of 3D CT images of the lung using deep learning.", Thesis of Adrien Heitz (2020-), Co-direction with Fabrice Heitz (director). CIFRE thesis with Visible Patient. * "Analysis of mouse brain MRI by deep learning. Application to the characterization of mouse models for the study of chronic pain comorbidity and anxiety disorders.", Thesis of Franck Valentini.(2021-), Co-direction with Laura Harsan. defended thesis: * "Novel radiomics approaches for characterization of liver tumours by image analysis", Thesis of Farid Ouhmich (2017-2021), Co-direction with [[Fabrice Heitz]], supervisor: Vincent Agnus. * "Development of a computer model to optimize donor/receiver matching in liver transplantation", Thesis of Pietro Addeo (2017-2021), Co-supervision with [[Benoit Naegel]] (director), Philippe Bachellier (co-director) and [[Adrien Krähenbühl]] (supervisor). * "Diagnostical biomarkers in multimodal brain MRI of Lewy body disease and Alzheimer's disease", Thesis of Elena Chabran (2016-2019), Co-direction with Frédéric Blanc * "Multivariate regression model for comparing populations in diffusion MRI", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Alix_Bouchon Alix Bouchon] (2012-2016), Co-supervision with [[Fabrice Heitz]] * "Quantitative imaging of ventilation double-energy computed tomography", Thesis of [http://icube-miv.unistra.fr/fr/index.php/Mickael_Ohana Mickael Ohana] (2013-2016), Co-supervision with [[Fabrice Heitz]] and Catherine Roy * "[http://antoine.grigis.voila.net/files/publication/phd12.pdf.zip Statistical approaches for change detection in diffusion MRI. Application to the longitudinal follow-up of neuro-degenerative pathologies]", Thesis of [http://antoine.grigis.voila.net Antoine Grigis] (2009-2012), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. * "[http://herve.boisgontier.free.fr/cv/ressources/theseHerveBoisgontier.pdf Automatic changes detection in diffusion MRI: Application to Multiple Sclerosis]", Thesis of [http://herve.boisgontier.free.fr Hervé Boisgontier] (2006-2010), Co-supervision with [[Fabrice Heitz]] and [http://www-ipb.u-strasbg.fr/staff/armspach/ Jean-Paul Armspach]. == Teaching == * Signal processing (1A/2A) at école [http://www.telecom-physique.fr Telecom Physique Strasbourg] * "[http://images.icube.unistra.fr/fr/index.php/Dispositifs_d%27imagerie_m%C3%A9dicale Medical image devices ]" in the Master "[http://master-iriv.u-strasbg.fr/index.php Images, Robotique et Ingénierie du Vivant]" (Strasbourg University) * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Traitement_d%27images_TICS2A Image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "[http://images.icube.unistra.fr/fr/index.php/Introduction_aux_traitement_d%27images_m%C3%A9dicales Introduction to medical image processing]" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree * Lectures about "Medical image processing: methods and applications" at école [http://www.telecom-physique.fr Telecom Physique Strasbourg], [http://ticsante.u-strasbg.fr TI santé] degree == Publications == === Journals === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_articles=true&=#hideMenu" /> === Conferences === <iframe key="papr" path="?author=noblet&title=&labo=4&team=7&annee1=&annee2=&display=rap+&nationalRank=toutes&project=tous&opt_conf=true&=#hideMenu" /> 8ed36b458103d4195a7fa11db06b0079ab916ce0 0 172 1160 2021-11-22T16:22:57Z Pantovic 77 Created page with "__NOEDITSECTION__ __NOTOC__ * PhD candidate {| cellspacing="20" width="100%" | Anja Pantović ICube - IMAGeS Pôle API Office C225 300 Bd Sébastien Brant - BP 10413 6..." wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * PhD candidate {| cellspacing="20" width="100%" | Anja Pantović ICube - IMAGeS Pôle API Office C225 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel: +33 (0)7 66 59 08 79 e-mail: pantovic@unistra.fr |} === Thesis Title === '''Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG.''' * '''Funding''': ArtIC project ``Artificial Intelligence for Care” (grant ANR-20-THIA-0006-01) . * '''Supervisor''': [http://images.icube.unistra.fr/fr/index.php/Caroline_Essert Caroline Essert (ICube - IMAGeS)]. === Teaching === ==== Algorithms and Programming 1 ==== * practical work 6f43646d917f284b579b1e8938379389356cbad6 1161 1160 2021-11-22T16:23:35Z Pantovic 77 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * PhD candidate {| cellspacing="20" width="100%" | Anja Pantović ICube - IMAGeS Pôle API Office C225 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel: +33 (0)7 66 59 08 79 e-mail: pantovic@unistra.fr |} === Thesis Title === '''Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG.''' * '''Funding''': ArtIC project ``Artificial Intelligence for Care” (grant ANR-20-THIA-0006-01) . * '''Supervisor''': [https://images.icube.unistra.fr/en/index.php/Caroline_Essert Caroline Essert (ICube - IMAGeS)]. === Teaching === ==== Algorithms and Programming 1 ==== * practical work 3eecc031b557c5439652635cbd476dc08c5ace8a 1162 1161 2021-11-23T12:37:30Z Pantovic 77 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * PhD candidate {| cellspacing="20" width="100%" | Anja Pantović ICube - IMAGeS Pôle API Office C225 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel: +33 (0)7 66 59 08 79 e-mail: pantovic@unistra.fr |} === Thesis Title === '''Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG.''' My thesis focuses on computer-aided preoperative planning for percutaneous surgery and SEEG electrode implantation. It consists in studying different methods to optimize the positioning of several needles or electrodes in order to maximize the treatment and minimize the risks and side effects for the patient. My goal during this PhD is to develop planning techniques based on deep learning and to compare them to the usual aggregative approaches or Pareto front. * '''Funding''': ArtIC project ``Artificial Intelligence for Care” (grant ANR-20-THIA-0006-01) . * '''Supervisor''': [https://images.icube.unistra.fr/en/index.php/Caroline_Essert Caroline Essert (ICube - IMAGeS)]. === Teaching === ==== Algorithms and Programming 1 ==== * practical work 9f2b4883967da7232359a9c15b27de53e03b5660 0 173 1163 2021-11-26T13:00:22Z Pourarab 78 Created page with "<big>'''Doctorant'''</big><br> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien..." wikitext text/x-wiki <big>'''Doctorant'''</big><br> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C226'''<br> e-mail : '''dpourarab@unistra.fr'''<br> |} </td> <td align=right> [[Fichier:Dania lPOURARAB.jpg|frameless|center]] </td> </tr> </table> ==Supervisor== **[[Caroline Essert]] (ICube IMAGeS) == Thesis Title == '''Calculation and optimization of trajectories for autonomous vehicles in an agricultural environment''' <div style="max-width:700pt;"> This research addresses the problem of Calculation and optimization of trajectories for one or several agricultural robots subjected to the robot dynamics as well as the geometrical and topological terrain constraints. </div> == Teaching == === [https://mathinfo.unistra.fr/ Faculty of Mathematics and Computer Science - Strasbourg university :=== *2020-2021 ** Parctical work MUW, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN901/ Methodology of University Work] ** Parctical work Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logic Programming] ** Parctical work Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmics and Data Structures] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] *2021-2022 ** Parctical work Algo-Prog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN899/ Algorithmic and programming] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] == Publications == <anyweb> http://icube-publis.unistra.fr/?author=danial+pour+arab&allaut=or&title=&team=&platform=&national=&project=&tagmed=&authors=&year1=&year2=&=#hideMenu </anyweb> 088f166836ea9af2cf9f00457bf3a362fefe77c2 1164 1163 2021-11-26T13:02:44Z Pourarab 78 wikitext text/x-wiki <big>'''Doctorant'''</big><br> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C226'''<br> e-mail : '''dpourarab@unistra.fr'''<br> |} </td> <td align=right> [[Fichier:Dania lPOURARAB.jpg|frameless|center]] </td> </tr> </table> ==Supervisor== *[[Caroline Essert]] (ICube IMAGeS) == Thesis Title == '''Calculation and optimization of trajectories for autonomous vehicles in an agricultural environment''' <div style="max-width:700pt;"> This research addresses the problem of Calculation and optimization of trajectories for one or several agricultural robots subjected to the robot dynamics as well as the geometrical and topological terrain constraints. </div> == Teaching == === [https://mathinfo.unistra.fr/ Faculty of Mathematics and Computer Science - Strasbourg university :=== *2020-2021 ** Parctical work MUW, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN901/ Methodology of University Work] ** Parctical work Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logic Programming] ** Parctical work Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmics and Data Structures] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] *2021-2022 ** Parctical work Algo-Prog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN899/ Algorithmic and programming] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] == Publications == <anyweb> http://icube-publis.unistra.fr/?author=danial+pour+arab&allaut=or&title=&team=&platform=&national=&project=&tagmed=&authors=&year1=&year2=&=#hideMenu </anyweb> 0ca901c1044804cc7d7f0a6cf9f96e65b7f9bbc1 1186 1164 2022-11-23T07:50:59Z Pourarab 78 wikitext text/x-wiki <big>'''PhD Student'''</big><br> <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C226'''<br> e-mail : '''dpourarab@unistra.fr'''<br> |} </td> <td align=right> [[Fichier:Dania lPOURARAB.jpg|frameless|center]] </td> </tr> </table> ==Supervisor== *[[Caroline Essert]] (ICube IMAGeS) == Thesis Title == '''Calculation and optimization of trajectories for autonomous vehicles in an agricultural environment''' <div style="max-width:700pt;"> This research addresses the problem of Calculation and optimization of trajectories for one or several agricultural robots subjected to the robot dynamics as well as the geometrical and topological terrain constraints. </div> == Teaching == === [https://mathinfo.unistra.fr/ Faculty of Mathematics and Computer Science - Strasbourg university :=== *2020-2021 ** Parctical work MUW, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN901/ Methodology of University Work] ** Parctical work Prolog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26114/ Logic and Logic Programming] ** Parctical work Python, [https://mathinfo.unistra.fr/formations/licence/mathematiques/rof/ME14/FRUAI0673021VCOEN34167/ Algorithmics and Data Structures] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] *2021-2022 ** Parctical work Algo-Prog, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN899/ Algorithmic and programming] ** Parctical work DSA, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26116/ Data structures and algorithms 1] ** Parctical work Dev-Tech, [https://mathinfo.unistra.fr/formations/licence/informatique/rof/ME6/FRUAI0673021VCOEN26118/ Development techniques] == Publications == <anyweb> http://icube-publis.unistra.fr/?author=danial+pour+arab&allaut=or&title=&team=&platform=&national=&project=&tagmed=&authors=&year1=&year2=&=#hideMenu </anyweb> 9cf3b5d8e9a9de85b8d39f0514b8c8aaf1aa66c4 0 31 1165 553 2021-12-10T16:08:52Z Faisan 27 wikitext text/x-wiki <big>'''Assistant Professor'''</big> <table width=100%> <tr> <td> {| class="wikitable" |- | ICube - MIV<br /> 300 Bd Sébastien Brant<br /> BP 10413<br /> 67412 Illkirch CEDEX - France<br /><br /> Phone: + 33 (0) 3 68 85 44 89<br /> Fax: + 33 (0) 3 68 85 44 97<br /> Office: '''C211''' <br /> E-mail: '''faisan(at)unistra(dot)fr'''<br /> |} </td> <td align=right> [[File:photoid22.jpeg|frameless|center|upright=1.9]] </td> </table> == Description of Activities == === Decomposition of a signal sequence === <table width=100%> <tr> <td> We address the problem of decomposing a sequence of spectroscopic signals. Data are a series of signals modeled as a noisy sum of parametric peaks. We aim to estimate the peak parameters given that they change slowly between two contiguous signals. The key idea is to decompose the whole sequence rather than each signal independently. The problem is set within a Bayesian framework. The peaks with similar evolution are gathered into groups and a Markovian prior on the peak parameters of a same group is used to favor a smooth evolution of the peaks. In addition, the peak number and the group number are unknown and have to be estimated (the number of peaks in two contiguous signals change if peaks vanish). Therefore, the posterior distribution is sampled with a reversible jump Markov chain Monte Carlo algorithm. * V. Mazet, S. Faisan, S. Awali, M. Gaveau, L. Poisson, Unsupervised Joint Decomposition of a Spectroscopic Signal Sequence, Signal Processing, Elsevier, pp. 193--205, Vol. 109, [http://dx.doi.org/10.1016/j.sigpro.2014.10.032 doi:10.1016/j.sigpro.2014.10.032], April 2015. The two first authors contributed equally to this work. </td> <td align=right> [[File:Animated.gif|frameless|thumb|upright=2.9]] </td> </table> === Polarimetric Image Processing === <table width=100%> <tr> <td> We have proposed a new procedure to estimate polarization signatures for Stokes or Mueller images, while preserving sharp transitions. The procedure is based on non-local means (NLM) filtering, which is an efficient denoising algorithm that outperforms popular denoising methods regarding the preservation of sharp edges and fine texture details. The noise is filtered while yielding physically admissible Stokes vectors (or Mueller matrices) at each pixel location. The proposed joint filtering-estimation procedure is expressed as a constrained optimization problem. Interestingly, we show that it can be equivalently seen as a two step method: a filtering stage based on the NLM approach followed by an estimation step ensuring physical admissibility. Ellipticity of the Stokes vectors estimated with the proposed approach (right) and by using the pseudo-inverse (left) are presented. * S. Faisan, C. Heinrich, G. Sfikas, J. Zallat, Estimation of Mueller matrices using non-local means filtering . Optics Express, pp. 4424--4438, Vol. 21, Num. 4, [http://dx.doi.org/10.1364/OE.21.004424 doi:10.1364/OE.21.004424], February 2013 * S. Faisan, C. Heinrich, F. Rousseau, A. Lallement, J. Zallat, Joint filtering-estimation of Stokes vector images based on a non-local means approach . Journal of the Optical Society of America. A, Optics, Image Science, and Vision, pp. 2028--2037, Vol. 29, Num. 9, [http://dx.doi.org/10.1364/JOSAA.29.002028 doi:10.1364/JOSAA.29.002028], September 2012 </td> <td align=right> [[File:nlm.gif|frameless|thumb|upright=2.9]] </td> </table> === Retinal Image Registration === <table width=100%> <tr> <td> We have proposed a new, robust and automated method for registering sequences of images acquired from scanning ophthalmoscopes. The method uses a multi-scale B-spline representation of the deformation field to map images to each other and an hierarchical optimization method. We applied the method to video sequences acquired from different parts of the retina. In all cases, the registration was successful, even in the presence of large distortions from microsaccades, and the resulting deformation fields describe the fixational motion of the eye. * S. Faisan, D. Lara, C. Paterson, Scanning ophthalmoscope retinal image registration using one-dimensional deformation fields . Optics Express, pp. 4157--4169, Vol. 19, Num. 5, [http://dx.doi.org/10.1364/OE.19.004157 doi:10.1364/OE.19.004157], February 2011 </td> <td align=right> [[File:animRecalage.gif|frameless|thumb|upright=2.9]] </td> </table> === Comparing a subject to a statistical model === <table width=100%> <tr> <td> The goal of this project was to build a 3-D statistical model that represents the location of clinically relevant regions of the skull. The landmark distribution which is estimated from 3-D CT scans is modeled using a multivariate Gaussian Markov random field. The main contribution lies in a new way to characterize what constitutes an anomaly in a subject when it is compared to such a statistical model (which does not need to be a Gaussian Markov random field). Once global abnormality of the subject is detected, local anomalies are searched for by finding the smallest subset of landmarks whose well chosen displacement can render the subject normal according to the statistical model. S. Faisan, A new paradigm to compare a subject to a statistical model. Application to the detection of skull abnormalities . Pattern Recognition Letters, pp. 1309--1315, Vol. 33, Num. 10, [http://dx.doi.org/10.1016/j.patrec.2012.03.009 doi:10.1016/j.patrec.2012.03.009], July 2012 </td> <td align=right> [[File:model.jpeg|frameless|thumb|upright=2.9]] </td> </table> === Warping a binary image... Simple, isn'it? === <table width=100%> <tr> <td> The estimation of one-to-one mappings is one of the most intensively studied topics in the research field of non-rigid registration. Although the computation of such mappings can now be performed accurately and efficiently, the solutions for using them in the context of binary image deformation is much less satisfactory. In particular, warping a binary image with such transformations may alter its discrete topological properties if common resampling strategies are considered. In order to deal with this issue, this article proposes a method for warping such images according to continuous and bijective mappings, while preserving their discrete topological properties (i.e. their homotopy type). Results obtained in the context of atlas-based segmentation of complex anatomical structures highlight the advantages of the proposed approach. At left, you can see the skull template that is warped in the proposed application (left, middle: front and profile view of the template. Right: template visualized with its topological skeleton). * S. Faisan, N. Passat, V. Noblet, R. Chabrier, C. Meyer, Topology preserving warping of 3-D binary images according to continuous one-to-one mappings . IEEE Transactions on Image Processing, pp. 2135--2145, Vol. 20, Num. 8, [http://dx.doi.org/10.1109/TIP.2011.2158338 doi:10.1109/TIP.2011.2158338], 2011 </td> <td align=right> [[File:ip2.jpg|frameless|thumb|upright=2.9]] </td> </table> === Functional MRI - Brain Mapping === <table width=100%> <tr> <td> Activation detection at voxel v is formulated in terms of temporal alignment between sequences of hemodynamic response onsets detected in the fMRI signal at v and in the spatial neighborhood of v, and the input sequence of stimuli or stimulus onsets (see Fig. a). The multiple event sequence alignment problem is solved within the probabilistic framework of hidden Markov multiple event sequence models (HMMESMs). It consists in hypothesizing about a set of valid scenarios that could explain the N observed HRO event sequences. A valid scenario (see Fig. b), relies on the combination of: * an N + 1th event sequence, namely, a candidate sequence of task-induced hemodynamic activation onsets (HAOs) at the origin of the observations. * HAO signatures, that is, associations of HRO events across channels, each association corresponding to the observable counterpart of a single HAO event. By definition, a signature is composed of one HRO event by observation channel, the event being observed (black line) or not (black point) (see Fig. b). * Causality constraints between signatures given an HAO sequence. If you are interested, you can find more information in: * S. Faisan, L. Thoraval, J.-P. Armspach, F. Heitz, Hidden Markov multiple event sequence models : a paradigm for the spatio-temporal analysis of fMRI data . Medical Image Analysis, pp. 1--20, Vol. 11, Num. 1, [http://dx.doi.org/10.1016/j.media.2006.09.003 doi:10.1016/j.media.2006.09.003], February 2007. </td> <td align=right> [[File:problemStatement.jpg|frameless|thumb|upright=2.9]] </td> </table> == Publications == <iframe key="papr" path="?author=faisan&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> 4ae11b778a14d946902004332e80445bbcbc8929 8 2 1166 1130 2022-06-24T09:21:07Z Admin 1 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Responsabilities|Responsabilities ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Methods in Bayesian Inference and Statistical Analysis ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Image Processing for Space and Earth Observations * Platforms ** http://plateforme.icube.unistra.fr/iris/index.php/Accueil|IRIS ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS * LANGUAGES 2c17ee1a91c1c362c659dfa00df75968a44aaefe 1167 1166 2022-06-24T09:21:56Z Admin 1 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Responsabilities|Responsabilities ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects * Themes ** Methods in Bayesian Inference and Statistical Analysis|Recueil et Analyse des Données de Santé, Causalité, Méthodes Bayésiennes ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Machine learning methods for image and signal processing * Platforms ** http://plateforme.icube.unistra.fr/iris/index.php/Accueil|IRIS ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS * LANGUAGES 10c767571972c6914b1f8a9efe48ac69e873e8dc 1197 1167 2022-12-19T09:51:24Z Admin 1 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Responsabilities|Responsabilities ** Collaborations|Collaborations ** Publications|Publications ** Highlights|Highlights ** Seminars|Seminars ** Transverse axes|Transverse axes ** Projects|Projects ** Softwares|Softwares * Themes ** Methods in Bayesian Inference and Statistical Analysis|Recueil et Analyse des Données de Santé, Causalité, Méthodes Bayésiennes ** Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Biomedical image processing|Biomedical image processing ** Image Processing for Space and Earth Observations| Machine learning methods for image and signal processing * Platforms ** http://plateforme.icube.unistra.fr/iris/index.php/Accueil|IRIS ** 3D reconstruction and metrology|3D reconstruction and metrology ** SERTIT|SERTIT * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS * LANGUAGES a48c87ebc14706c5b1ac0bfefc92d8a3061bbfcb 100 30 1168 1118 2022-06-24T12:35:43Z Faisan 27 Faisan moved page [[Image Processing for Space and Earth Observations]] to [[Machine Learning for Image and Signal processing]] wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret [http://lsiit-miv.u-strasbg.fr/paseo/ The IPSEO Research Group] [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] 24112e33df91590cc8da9419d4d1755b592dc547 1170 1168 2022-06-24T12:39:17Z Faisan 27 Faisan moved page [[Machine Learning for Image and Signal processing]] to [[MachineLearning for Image and Signal processing]] wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret [http://lsiit-miv.u-strasbg.fr/paseo/ The IPSEO Research Group] [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] 24112e33df91590cc8da9419d4d1755b592dc547 0 174 1169 2022-06-24T12:35:43Z Faisan 27 Faisan moved page [[Image Processing for Space and Earth Observations]] to [[Machine Learning for Image and Signal processing]] wikitext text/x-wiki #REDIRECT [[Machine Learning for Image and Signal processing]] 5d60575d9ce85084e412d5d4894d798c0cebedcf 0 175 1171 2022-06-24T12:39:17Z Faisan 27 Faisan moved page [[Machine Learning for Image and Signal processing]] to [[MachineLearning for Image and Signal processing]] wikitext text/x-wiki #REDIRECT [[MachineLearning for Image and Signal processing]] af9558330fb66adda7f6a089f4ab8896baeea06a 6 176 1173 2022-08-18T08:39:31Z Maintenance script 0 == Summary == Importing file wikitext text/x-wiki == Summary == Importing file a17a62e513d7b7e2e7db2961dd51392aa3595c1d 100 47 1175 1121 2022-08-18T09:43:33Z Admin 1 /* Illustrations */ wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Etienne_Le_Quentrec|LE QUENTREC Etienne]], [[Cyril_Meyer|MEYER Cyril]] </td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> Fichier:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> Fichier:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <iframe key="papr" path="?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu" /> [[fr:Géométrie discrète et morphologie mathématique]] d95a76ae65b47418687d1d63b1bf19e1653837fb 1176 1175 2022-08-18T09:44:05Z Admin 1 /* Illustrations */ wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Etienne_Le_Quentrec|LE QUENTREC Etienne]], [[Cyril_Meyer|MEYER Cyril]] </td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <iframe key="papr" path="?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu" /> [[fr:Géométrie discrète et morphologie mathématique]] 6eb86b292167902fe45a7077d4767dd719e10882 0 151 1177 1156 2022-10-05T06:56:37Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science since 2018 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 3e3c75fc36129fb589b91581a4fa85303e270e22 1178 1177 2022-10-05T06:57:03Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science from 2018 to 2021 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] af124e56b04dddc408f1a6806702570efd2f2b87 1179 1178 2022-10-18T11:50:02Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image:toto.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science from 2018 to 2021 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 3869811735b81609dd5e07c450800a27e5647831 1180 1179 2022-10-18T11:50:11Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image: CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science from 2018 to 2021 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] a4c91dddd1112b009038c253fd90e35338e7342c 1181 1180 2022-10-18T11:51:29Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image: CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * Member of the Editorial Board, Computer Assisted Surgery Journal * Executive Board Member, ISCAS International Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science from 2018 to 2021 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : <anyweb> http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu </anyweb> [[fr:Caroline Essert]] 0dc3409d7d7d01ecedad2845e69d8abfdb07df84 0 12 1182 1126 2022-10-18T11:59:04Z Essert 69 wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 9228e019ae4e3f62f4d98811d9ddb4e15499ca1d 1184 1182 2022-10-18T12:03:39Z Essert 69 /* Internship available for 2023 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:File:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 6c48909a880d439b47467712adf593cea302fca0 1185 1184 2022-10-18T14:51:34Z Essert 69 /* Internship available for 2023 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 883838adedcf4226bac522511eeebad41753853c 1190 1185 2022-12-08T13:13:25Z Essert 69 wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [[:Media:2023-Master-Internship-Replanning.pdf| Real time replanning of tracked needles for computer-assisted percutaneous surgery ]] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 2325b033d47b6e8e46a2f5d106d229d4c9785e5d 1191 1190 2022-12-09T13:51:57Z Admin 1 /* Internship available for 2023 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [[Media:2023-Master-Internship-Replanning.pdf| Real time replanning of tracked needles for computer-assisted percutaneous surgery ]] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] e6026dd0e055e6ca6e297212589d7ed82fda8bf1 1192 1191 2022-12-09T13:52:58Z Admin 1 /* Internship available for 2023 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/en/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 253a5382565bc4cb183b732f01152876e55c8b86 1193 1192 2022-12-09T13:53:17Z Admin 1 /* Internship available for 2023 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[:Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[:Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] d32ccb55b20675c247d2f60f1cd05cb710133d1a 1194 1193 2022-12-09T13:53:37Z Admin 1 /* Internship available for 2019 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [[Media:Sujet Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf|Error estimation of deformable image registration using CNN]] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [[Media:2019-MasterInternship_Replanning.pdf|Real time replanning of trajectories for percutaneous surgery]] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 3ac7789e3e0df57c49513a0a2147c99371b7bda5 1195 1194 2022-12-09T13:55:42Z Admin 1 /* Internship available for 2019 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [https://images.icube.unistra.fr/en/img_auth_namespace.php/8/8c/Sujet_Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf Error estimation of deformable image registration using CNN] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [https://images.icube.unistra.fr/en/img_auth_namespace.php/9/93/2019-MasterInternship_Replanning.pdf Real time replanning of trajectories for percutaneous surgery] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] ddcb4264ca39c0260daefd528e800f7349b1e71a 1196 1195 2022-12-09T13:56:20Z Admin 1 /* Internship available for 2019 */ wikitext text/x-wiki == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [https://images.icube.unistra.fr/img_auth_namespace.php/8/8c/Sujet_Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf Error estimation of deformable image registration using CNN] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/9/93/2019-MasterInternship_Replanning.pdf Real time replanning of trajectories for percutaneous surgery] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 3a8684f52fe98b4835d36f48a7fbcbc9a1f3cf2e 6 177 1183 2022-10-18T12:00:55Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 157 1187 1125 2022-12-01T14:03:22Z Cyril.meyer 81 wikitext text/x-wiki <big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ website]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL_MEYER_2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [https://www.igbmc.fr/igbmc/missions/annuaire/patrick-schultz Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Development of web interfaces (W11) : BUT Computer Science S1 * Introduction to databases and SQL (D11) : BUT Computer Science S1 * Numerical methods (M21) : BUT Computer Science S2 * Numerical tools for descriptive statistics (M22) : BUT Computer Science S2 * Object-oriented programming (P21) : BUT Computer Science S2 * Effective Development (P31) : BUT Computer Science S3 == Publications == <iframe key="papr" path="?author=Cyril+Meyer&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> 134ffc514500d52f40ae9c68a36027e7788f1170 1189 1187 2022-12-01T14:08:41Z Cyril.meyer 81 wikitext text/x-wiki <big>'''PhD student'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ website]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL MEYER 2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [https://www.igbmc.fr/igbmc/missions/annuaire/patrick-schultz Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Development of web interfaces (W11) : BUT Computer Science S1 * Introduction to databases and SQL (D11) : BUT Computer Science S1 * Numerical methods (M21) : BUT Computer Science S2 * Numerical tools for descriptive statistics (M22) : BUT Computer Science S2 * Object-oriented programming (P21) : BUT Computer Science S2 * Effective Development (P31) : BUT Computer Science S3 == Publications == <iframe key="papr" path="?author=Cyril+Meyer&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> a1a71b696738451df6ac9ce80f6feed02d978bc7 6 178 1188 2022-12-01T14:08:00Z Cyril.meyer 81 wikitext text/x-wiki CYRIL MEYER 2019 0b4d838420aa585ce346809beaaa63f4eedeeb5d 0 13 1198 1127 2023-03-22T16:53:53Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:Fichier:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 9b4994279655f4ebbe90f5e495b2000ec2f42f53 1199 1198 2023-03-22T16:54:02Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:Fichier:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 13fab196a815560c1fb22d12764991fc33d5828c 1200 1199 2023-03-22T16:57:43Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:Media:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] af46aa30e5cdd0a49131e8c8d5b78455cd139bbc 1201 1200 2023-03-22T16:57:58Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 45d9ddc44dc1471250ceff539f373d0144888e83 1202 1201 2023-03-23T10:44:18Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:Fichier:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 13fab196a815560c1fb22d12764991fc33d5828c 1204 1202 2023-03-23T10:44:59Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] (apply before May 20th). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 45d9ddc44dc1471250ceff539f373d0144888e83 1205 1204 2023-03-23T10:45:30Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] ad2ce5e36d98977874de62db033e9bc528d3cf4a 1206 1205 2023-03-23T15:59:10Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th'''). * [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 47913d9062f801577caafc685d0ebed449158dff 6 179 1203 2023-03-23T10:44:36Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 6 180 1207 2023-03-23T15:59:42Z Essert 69 wikitext text/x-wiki da39a3ee5e6b4b0d3255bfef95601890afd80709 0 3 1208 1105 2023-05-10T07:51:37Z Faisan 27 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: [[Benoît Naegel]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' MIV is involved in the following transversal research programs of ICube: [[fr:Accueil]] dfec7db85c74a622a893280c5f734da4d51ec58e 1209 1208 2023-05-10T07:52:26Z Faisan 27 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Fabrice Heitz]] <br /> * '''Co-Head: [[Benoît Naegel]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * '''[[Methods in Bayesian Inference and Statistical Analysis]]''' * '''[[Discrete Geometry and Mathematical Morphology]]''' * '''[[Biomedical image processing]]''' * '''[[Probabilistic analysis for space & Earth observations]]''' MIV is involved in the following transversal research programs of ICube: L'équipe IMAGeS participe activement aux axes transverses d'ICube : * [https://dsai.icube.unistra.fr/index.php/Accueil Sciences des Données et Intelligence Artificielle (SDIA)] * [https://irmc.icube.unistra.fr/index.php/Accueil Imagerie et Robotique Médicale et Chirurgicale (IRMC)] * [https://inca.icube.unistra.fr/index.php/Accueil Instrumentation, Capteurs et Analyse (InCA)] [[fr:Accueil]] d2d454cb35f556c7432e1f2f5dd2c65f6dfd6fd8 100 111 1210 718 2023-05-12T14:38:06Z Admin 1 Admin moved page [[Methods in Bayesian Inference and Statistical Analysis]] to [[Intranet:Methods in Bayesian Inference and Statistical Analysis]] without leaving a redirect wikitext text/x-wiki [[fr:Méthodes_en_inférence_bayésienne_et_analyse_statistique]] 4a228066537fcfdbf95218801b23481d57d01dd3 100 47 1211 1176 2023-05-12T14:38:21Z Admin 1 Admin moved page [[Discrete Geometry and Mathematical Morphology]] to [[Intranet:Discrete Geometry and Mathematical Morphology]] without leaving a redirect wikitext text/x-wiki {| <table> <tr> <td> '''Head:''' </td> <td> [[Mohamed TAJINE|TAJINE Mohamed]]</td> </tr> <tr> <td> '''Permanent staff:''' </td> <td> [[Etienne_Baudrier|BAUDRIER Etienne]], [[Marie-Andrée_Jacob-Da_Col|DA COL-JACOB Marie Andrée]], [[Adrien Krähenbühl|Krähenbühl Adrien]], [[Aurélie_Leborgne | LEBORGNE Aurélie]] (50%), [[Loïc Mazo|MAZO Loïc]], [[Benoît Naegel|NAEGEL Benoît]], [[Christian Ronse|RONSE Christian]], [[Mohamed TAJINE|TAJINE Mohamed]] </td> </tr> <tr> <td> '''Doctoral students:''' </td> <td> [[Etienne_Le_Quentrec|LE QUENTREC Etienne]], [[Cyril_Meyer|MEYER Cyril]] </td> </tr> <tr> <td> '''Post-doctoral researcher:''' </td> <td> [http://www.odyssee-merveille.com Odyssée Merveille]</td> </tr> </table> <br> == Objectives == <br /> This theme regroups activities on geometrical, topological, algebraic and discrete models in imaging. <br /> <br /> In Discrete Geometry, we study digital geometries and topologies, as well as discrete tomography. The mathematical tools that we develop are adapted to image analysis and synthesis. Our aims are, on the one hand to build a robust and performing algorithmic in imaging, controlling processing errors related to the use of real numbers, and on the other hand to develop tools for studying different properties (differential, geometrical and topological) of both discrete and Euclidean objects. More generally, we study the transfers of properties between Euclidean spaces representing "reality" and discrete spaces belonging to the computer. <br /> <br /> In Mathematical Morphology, we study the construction of new operators for morphological image processing, and the extension of the morphology to new types of objects. Work is also conducted on connected operators, component trees and connective image segmentation, as well as the application of mathematical morphology to color or multispectral images. <br /> <br /> The preferred application area is currently biomedical imaging, but we are also pursuing work in remote sensing imagery. <br /> <br /> == Research topics == The research activities of the theme are structured along the following axes: * Discretization models for objects and operators: Extension of the Hausdorff discretization to grey-level images and study of quasi-affine operators. * Reconstruction of characteristics and objects: ** Estimation of geometrical parameters: The ultimate objective is to design an effective "theory" of measure and integration for discrete spaces, compatible with those of the "continuous" spaces, allowing thus to obtain robust estimators of geometrical parameters (perimeter, area, etc.). ** Reconstruction of Euclidean properties: Design of an axiomatization of digital geometries in the likeness of those of Euclid and Hilbert in the "continuous" space. ** Discrete tomography: Study of classical models of discrete tomography and of the model based on point sources, on the notion of convexity by quadrants, as well as the estimation and reconstruction of characteristics of an object directly from its projections. * Digital topology: Study of topological models, notably for label images, with a view to applications in medical imaging. * Image analysis: Study of connected operators and of hierarchical structures. * Image segmentation: Study of optimization criteria for partial partitions, in relation with order relations on them. * Pattern recognition: Integration of supervised learning methods in mathematical morphology. == Illustrations == <br /> '''Discretization models for objects and operators:''' <gallery> File:AQA.png| Inverse image of quasi-affine application </gallery> '''Reconstruction of characteristics and objects:''' <gallery> File:f3_length_error.png|Error Measures for Perimeter Estimation File:astro_dual_3D_color.png|Dual of discretizations of a manifold in R² File:T_S_P_D.png|Discrete tomography based on point sources File:Q-conv.png|(a) Non Q-convex discrete set for the two point sources S₁ and S₂. (b) Q-convex discrete set for any pair of point sources. (c) Q-convex continuous set for the two point sources S₁ and S₂. (d) Non Q-convex continuous set for the two point sources S₁ and S₂. </gallery> '''Digital topology:''' <gallery> File:110x138.png|Label image File:110x138ZcutVert.png|Thinning of the green zone File:110x138ZexpVert.png|Thickening of the green zone </gallery> '''Image segmentation:''' <gallery> File:Segmentation_coron_ronse_f.jpg|Segmentation of the aorta and coronary arteries </gallery> '''Connected operators:''' <gallery> File:baboon128.png|Image simplification based on component-graph File:baboon128_a81_SV.png|Connected operator on a color image File:l1_G.png|Component-graph File:l1_V.png|Valuation lattice of an image </gallery> == Publications == <iframe key="papr" path="?author=tajine%2C+ronse%2C+da+col%2C+passat%2C+baudrier%2C+mazo%2C+naegel&allaut=or&title=&team=7&platform=&national=&project=&tagmed=&year1=&year2=&=#hideMenu" /> [[fr:Géométrie discrète et morphologie mathématique]] 6eb86b292167902fe45a7077d4767dd719e10882 100 56 1212 1120 2023-05-12T14:38:38Z Admin 1 Admin moved page [[Biomedical image processing]] to [[Intranet:Biomedical image processing]] without leaving a redirect wikitext text/x-wiki [[fr:Traitement d'images médicales]] {| <table> <tr> <td> '''Head''' </td> <td> [[Vincent Noblet|Vincent Noblet]]</td> </tr> <tr> <td> '''Co-head''' </td> <td> [[Denis Fortun|Denis Fortun]]</td> </tr> <tr> <td> '''Investigators:''' </td> <td> [[Etienne Baudrier]], [[Christophe Collet]], [[Caroline Essert]], [[Sylvain Faisan]], [[Christian Heinrich]], [[Fabrice Heitz]], [[E. Hirsch | Ernest Hirsch]], Adrien Krähenbühl, [[Alex Lallement]], Aurélie Leborgne, [[Céline Meillier]], [[Nicolas Meyer]], Philippe Meyer, [[Benoit Naegel]], [[Mickael Ohana]], [[Erik-André Sauleau]], [[Mohamed TAJINE|Mohamed Tajine]], [[Laurent Thoraval]], [[Jimmy Voirin]] </td> </tr> <tr> <td> '''Ph. D. students:''' </td> <td>Arnaud Abreu, Pietro Addeo, Romel Bhattacharjee, [[Argheesh Bhanot]], [[Anastasiia Bozhok]], Elena Chabran, Iris Daurensan, Eléonore Dufresne, Hugo Gangloff, Cyril Meyer, Farid Oumich, [[Florian Tilquin]]</td> </tr> <tr> <td> '''Post doc:''' </td> <td></td> </tr> </table> <br> == Objectives == <table> <tr> <td> This theme aims at developing models, methods and algorithms for processing data from various medical and biological imaging systems: * Magnetic resonance imaging (structural, diffusion, angiography, functional ...) * Nuclear Medicine Imaging * CT scan * Electron microscopy * histology * polarimetric imaging * Etc. </td> <td> [[File:modalities.png|frameless|thumb| center|upright=1.7]] </td> </tr> <tr> <td> The goal is to develop image processing methods for the study of living at different scales in the case of pre-clinical (small animal imaging) and clinical (human imaging) data: * microscopic scale: macromolecules reconstruction from electron microscopy, cellular image analysis with the FIB / SEM technology, ... * mesoscopic scale: Histopathological data analysis, study of biological tissues using polarimetric imaging, ... * macroscopic scale: study of brain connectivity, ... </td> <td> [[File:AnalyseMultiEchelleDuVivant.png|frameless|thumb|upright=2.2]] </td> </tr> </table> == Context and application areas == All these works are carried out in close collaboration with biologists, doctors and researchers in neuroscience, with strong interactions with the team [http://icube-imis.unistra.fr/index.php/Accueil IMIS]. These activities are part of the transverse axis [http://icube-web.unistra.fr/irmc/index.php/Accueil Imaging and Medical and Surgical Robotics] (IRMC), and integrate partly into the [http://med.unistra.fr/fre/FMTS Federation of Translational Medicine of Strasbourg] (FMTS) and the [http://www.ihu-strasbourg.eu/ihu/ IHU of Strasbourg]. A close link also exists with the acquisition of images, in particular thanks to the privileged access to the laboratory platform [http://plateforme.icube.unistra.fr/imagines/index.php/Accueil Imagines]. The main challenges related to the developed tools are both to improve the patient care (personalized medicine), whether for the diagnosis, prognosis or evaluation of a therapeutic response, and to develop new knowledge, especially in Neurosciences. The main areas of application are: * The study of maturation and cerebral aging * Neurodegenerative pathologies (Alzheimer's disease, Lewy body dementia) * Inflammatory diseases of the central nervous system (multiple sclerosis, neuromyelitis optica) * Cancers (glioblastomas, hepatocarcinomas) == Research topics == The research activities of the theme are structured around six topics: {| |- | '''Data reconstruction'''[[File:reconstruction.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Data_reconstruction]] || '''Segmentation''' [[File:segmentation.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Segmentation]] ||| '''Registration''' [[File:recalage.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Registration]] |- | '''Change detection and prediction''' [[File:changement.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Change_detection_and_prediction]] || '''Group comparison''' [[File:populations.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Group_comparison]] || '''Brain connectivity''' [[File:connectivite.jpg|frameless|thumb| center|upright=1.5|link=TIBM: Brain connectivity]] |} == Publications == <iframe key="papr" path="?author=&allaut=or&title=&team=7&platform=&national=&project=10&tagmed=&year1=&year2=&=#hideMenu" /> 745eb4ed71a7c3a415fe155ed6c2f2da76167ba9 100 30 1213 1170 2023-05-12T14:39:15Z Admin 1 Admin moved page [[MachineLearning for Image and Signal processing]] to [[Intranet:MachineLearning for Image and Signal processing]] without leaving a redirect wikitext text/x-wiki ''Principal Investigator'' : [[Christophe Collet]] <br /> ''Permanent researchers'' : C. Collet, M. Louys, V. Mazet <br /> ''Invited researchers'' : F. Salzenstein <br /> ''PhD in progress'' : J.-B. Courbot, H. Mortada <br /> ''Previous PhD'' : T.T. Ngo, F. Flitti, M. Petremand, B. Perret [http://lsiit-miv.u-strasbg.fr/paseo/ The IPSEO Research Group] [[fr:Traitement d'images pour l'observation de la Terre et de l'Univers]] 24112e33df91590cc8da9419d4d1755b592dc547 100 11 1214 851 2023-05-12T14:40:10Z Admin 1 Admin moved page [[Collaborations]] to [[Intranet:Collaborations]] without leaving a redirect wikitext text/x-wiki <table> <tr> <td>[http://www.cs.uh.edu/ University of Houston]</td> <td>Houston</td> <td>Etats-Unis</td> </tr><tr> <td>[https://www.sc.fsu.edu/ Université of Florida]</td> <td>Tallahassee</td> <td>Etats-Unis</td> </tr><tr> <td>[http://www.cuny.edu/index.html CUNY, The City University of New York]</td> <td>New-York</td> <td>Etats-Unis</td> </tr><tr> <td>[http://depts.washington.edu/bicg/home University of Washington]</td> <td>Seattle</td> <td>Etats-Unis</td> </tr><tr> <td>[http://www.cs.uoi.gr/index_en.html Université de Ioannina]</td> <td>Ioannina</td> <td>Grèce</td> </tr><tr> <td>[http://www.utm.rnu.tn/visirech/Fr/utm/fst/lipah/ LIPAH, Université de Tunis]</td> <td>Tunis</td> <td>Tunisie</td> </tr><tr> <td>[http://www-lfp.cea.fr/ CEA Laboratoire Francis Perrin]</td> <td>Gif-sur-Yvette</td> <td>France</td> </tr><tr> <td>[http://www.lnao.fr LNAO CEA NEUROSPIN]</td> <td>Saclay</td> <td>France</td> </tr><tr> <td>[https://www.creatis.insa-lyon.fr/ CREATIS]</td> <td>Lyon</td> <td>France</td> </tr><tr> <td>[http://www.lsis.org/ LSIS]</td> <td>Marseille</td> <td>France</td> </tr><tr> <td>[http://www.chu-besancon.fr CHU de Besançon, service de neurologie]</td> <td>Besançon</td> <td>France</td> </tr><tr> <td>[http://www.gipsa-lab.inpg.fr GIPSA lab]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://neurosciences.ujf-grenoble.fr GIN, Grenoble Institut des Neurosciences]</td> <td>Grenoble</td> <td>France</td> </tr><tr> <td>[http://www.esiee.fr/~info/a2si/gdi.html LIGM, Institut Gaspard Monge, Groupe Géométrie Discrète et Imagerie]</td> <td>Marne-la-Vallée</td> <td>France</td> </tr><tr> <td>[http://www.mips.crespim.uha.fr MIPS, Modélisation, Intelligence, Processus, Systèmes]</td> <td>Mulhouse</td> <td>France</td> </tr><tr> <td>[http://www.cran.uhp-nancy.fr/ CRAN, Centre de Recherche en Automatique de Nancy]</td> <td>Nancy</td> <td>France</td> </tr><tr> <td>[http://www.irisa.fr IRISA/INRIA Rennes]</td> <td>Rennes</td> <td>France</td> </tr><tr> <td>[http://xlim-sic.labo.univ-poitiers.fr/ XLIM]</td> <td>Poitiers</td> <td>France</td> </tr><tr> <td>[http://crestic.univ-reims.fr/groupe/SIC CReSTIC]</td> <td>Reims</td> <td>France</td> </tr><tr> <td>[http://lipade.mi.parisdescartes.fr LIPADE]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://www.oca.eu Observatoire de la côte d'Azur]</td> <td>Nice</td> <td>France</td> </tr><tr> <td>[http://www.obs-mip.fr Observatoire de Toulouse]</td> <td>Toulouse</td> <td>France</td> </tr><tr> <td>[http://www.obspm.fr Observatoire de Meudon]</td> <td>Paris</td> <td>France</td> </tr><tr> <td>[http://www-obs.univ-lyon1.fr CRAL, Observatoire de Lyon]</td> <td>Lyon</td> <td>France</td> </tr><tr> <td>[http://astro.u-strasbg.fr/observatoire Observatoire Astronomique de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://imaville.u-strasbg.fr Laboratoire Image, Ville et Environnement]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de psychiatrie]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU Strasbourg, service de chirurgie orthopédique]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.chru-strasbourg.fr/Hus CHU de Strasbourg Hautepierre, service de réanimation]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>Institut d’anatomie normale de Strasbourg</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.igbmc.fr/ IGBMC, Institut de Génétique et de Biologie Moléculaire et Cellulaire]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.virtual-surg.com IRCAD, Institut de Recherche Contre les Cancers de l'Appareil Digestif]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.ihu-strasbourg.eu/ihu/ IHU de Strasbourg]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www-irma.u-strasbg.fr IRMA, Institut de Recherche Mathématique Avancée]</td> <td>Strasbourg</td> <td>France</td> </tr><tr> <td>[http://www.est.cerema.fr/era-27-imagerie-methodes-optiques-r578.html Laboratoire Régional des Ponts et Chaussées de Strasbourg CEREMA / ERA 27]</td> <td>Strasbourg</td> <td>France</td> </tr> </table> d7f55c693ce00b45bad02d57dd4696e77b12e763 100 74 1215 1090 2023-05-12T14:40:23Z Admin 1 Admin moved page [[Highlights]] to [[Intranet:Highlights]] without leaving a redirect wikitext text/x-wiki [[fr:Faits_marquants]] == News 2020 == ====Covid-19 cartography==== ''An epidemic is defined as a rapidly evolving phenomenon in time and space. We are currently facing an epidemic situation that is unprecedented in the history of medicine. We are gradually discovering a new disease. Every day, we learn more about it, which allows us to constantly adapt to provide adequate responses. Knowledge of the parameters of the Covid-19 epidemic allows us to be better prepared to organise care accordingly.''<br /> In collaboration with the team of the Infectious Diseases Service of the University Hospitals of Strasbourg, the Public Health Service (GMRC, Pr Meyer) and the Laboratory of Biostatistics and Medical Informatics (Faculty of Medicine, Pr Sauleau) are contributing to the fight against the Covid-19 infection. Docteur Fabacher has produced an interactive map for global monitoring of the infection. All three belong to IMages, leArning, Geometry and Statistics team (IMAGeS) in the Laboratory ICube (CNRS, Université de Strasbourg, ENGEES, INSA Strasbourg). <br /> The map is available at: https://thibautfabacher.shinyapps.io/covid-19/ This tool is complementary to maps already published, such as the Johns Hopkins University map (Coronavirus COVID-19 Global Cases by Johns Hopkins CSSE), from which it retrieves some data but gives, on a global scale, an evolutionary vision both chronologically and geographically and makes it possible to measure the extent and spread of the coronavirus phenomenon.<br /> ''How does this map work ?<''br /> This map focuses on the evolution of the number of cases per country and for a given period, but in terms of incidence and prevalence. It is updated daily. The period of interest can be defined by the user and it is possible to choose (indicator): * The count of new cases over a period of time or the same count reported to the population of the country (incidence). * The total case count over a period of time or the same count reported to the population (prevalence). The user can zoom in on the map with the "+" and "-" buttons or with the scroll wheel of his mouse and can animate the map with the small "play" button under the choice of dates. We have added mortality data, presented according to the same principle, as well as curves of temporal evolution (by clicking on the "show evolution" box at the bottom right), allowing to display the evolution of the indicators by choosing the countries by clicking. Finally a mobile version is available for smartphone with the button at the top right. <br /> For any technical question, please contact [http://mailto:thibaut.fabacher@chru-strasbourg.fr Dr Fabacher]. == Highlights 2013 == ===== Patent ===== Jihad Zallat, Marc Torzynski, [[Christian Heinrich]] and [[Alex Lallement]] are the inventors of a patented device whose aim is to compensate the dephasing drift of a polarization state modulator. This device is based on liquid crystal modulators. The drift of one modulator is compensated by the drift of another modulator. This alleviates the need to recurrently calibrate the instrument. ===== Results of the project ERC FBrain ===== The [[ERC FBrain]] project (2008-2013), led by [[François Rousseau]], came to an end. Recent advances in medical imaging now allow us to quantify the maturation of brain tissue in the fetal stage, and opens a new avenue to understanding the rapid brain development in utero. These developments complement the work already done in imaging at the cellular level in animal and post mortem brain development studies. The fast MRI acquisition techniques are now able to "freeze" the motion of the fetal head during image acquisition. Reconstructing 3D images of the fetal brain is now feasible by using advanced post-processing algorithms. These new 3D images have motivated the development of new techniques for automatically labeling areas developing tissues in MRI data to their precise quantification. These methods were the basis of work to create the first maps of the growth of tissues and some patterns of cortical development in utero. Our work also showed that the estimate of connectome (i.e. the network of the fibers in the brain) in the fetus in utero is now possible. These measurements provide valuable conclusions that complement those from post mortem studies, and also allow the possibility of large population studies on the influence of genes and the maternal environment on early brain development. Colin Studholme, François Rousseau, « [http://dx.doi.org/10.1016/j.ijdevneu.2013.06.006 Quantifying and modelling tissue maturation in the living human fetal brain] », ''International Journal of Developmental Neuroscience'', 2013 f5c9f4174138803a58348d707661e2100837b8ed 8 2 1216 1197 2023-05-12T14:40:28Z Admin 1 wikitext text/x-wiki * Team ** Home|Home ** Members|Members ** Publications|Publications ** Seminars|Seminars ** Projects|Projects ** Softwares|Softwares * Job opportunities ** Internships|Internships ** PhD|PhD ** Post-doc|Post-doc * Intranet ** https://miv-wiki.u-strasbg.fr/ | Intranet IMAGeS ** Intranet:Collaborations|Collaborations ** Intranet:Highlights|Highlights ** Intranet:Methods in Bayesian Inference and Statistical Analysis|Recueil et Analyse des Données de Santé, Causalité, Méthodes Bayésiennes ** Intranet:Discrete Geometry and Mathematical Morphology|Discrete Geometry and Mathematical Morphology ** Intranet:Biomedical image processing|Biomedical image processing ** Intranet:MachineLearning_for_Image_and_Signal_processing| Machine learning methods for image and signal processing * LANGUAGES 3007a35e7d6320246e666d0805638727df0cc014 0 13 1217 1206 2023-11-06T08:08:32Z Essert 69 wikitext text/x-wiki '''Positions for 2023 <!--* [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th''').--> <!--* [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th''').--> * [[:Fichier:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before Dec 1st'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 151bc107ad20e870529698eb19df7114ce6a6cea 1218 1217 2023-11-06T08:09:18Z Essert 69 wikitext text/x-wiki '''Positions for 2023 <!--* [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th''').--> <!--* [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th''').--> * [[:File:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before Dec 1st'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 65eb2eafa79e2ca6e575ab7ece0a77dd4fdbbaa1 1219 1218 2023-11-06T08:34:11Z Admin 1 wikitext text/x-wiki '''Positions for 2023 <!--* [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th''').--> <!--* [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th''').--> * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before Dec 1st'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 3d33738d6ea37de507220cd65c03ceb4ed9ff862 1220 1219 2023-11-06T08:34:24Z Admin 1 wikitext text/x-wiki '''Positions for 2023 <!--* [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th''').--> <!--* [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th''').--> * [[:File:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before Dec 1st'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 65eb2eafa79e2ca6e575ab7ece0a77dd4fdbbaa1 1221 1220 2023-11-06T08:35:07Z Admin 1 wikitext text/x-wiki '''Positions for 2023 <!--* [[:File:PhDCE2023-SEEG_DL-EN.pdf|Preoperative SEEG electrode placement planning using deep learning based on clinical hypotheses]] ('''apply before May 20th''').--> <!--* [[:File:PhDCE2023-ARC-EN.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before April 30th''').--> * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] ('''apply before Dec 1st'''). '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''OPEN'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 3d33738d6ea37de507220cd65c03ceb4ed9ff862 1227 1221 2024-04-08T10:26:10Z Essert 69 wikitext text/x-wiki '''Positions for 2023 * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] '''FILLED'''. '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''FILLED'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] dced6f58797d0f2dc4593baee5a5c3f67cd40878 1228 1227 2024-04-25T12:25:25Z Krahenbuhl 64 Ajout des sujets de thèse 2024 sur la page en anglais wikitext text/x-wiki '''Positions for 2024 * [[:Fichier:2024_Sujet_these_baudrier.pdf|Surfaces en trois dimensions préservant leurs propriétés géométriques et topologiques sous un processus de discrétisation]] * [[:Fichier:2024_Naegel_Krähenbühl_Centerline.pdf|Skeletonization of tubular objects by discrete normal accumulation]] * [[:Fichier:PhD_Meyer_Faisan.pdf|Uncertainty quantification in automatic delineation for radiation therapy]] '''Positions for 2023 * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] '''FILLED'''. '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''FILLED'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 9ab91abd8c16999da58eda72a4a1c9e055fcc430 1229 1228 2024-04-25T12:26:46Z Krahenbuhl 64 Correction des liens des sujets 2024 wikitext text/x-wiki '''Positions for 2024 * [[:Media:2024_Sujet_these_baudrier.pdf|Surfaces en trois dimensions préservant leurs propriétés géométriques et topologiques sous un processus de discrétisation]] * [[:media:2024_Naegel_Krähenbühl_Centerline.pdf|Skeletonization of tubular objects by discrete normal accumulation]] * [[:Media:PhD_Meyer_Faisan.pdf|Uncertainty quantification in automatic delineation for radiation therapy]] '''Positions for 2023 * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] '''FILLED'''. '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''FILLED'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] 9af0f6767e27c705e47a7892eb481b4a32b8d4c0 1230 1229 2024-04-25T12:28:27Z Krahenbuhl 64 Espaces entre les années wikitext text/x-wiki '''Positions for 2024 * [[:Media:2024_Sujet_these_baudrier.pdf|Surfaces en trois dimensions préservant leurs propriétés géométriques et topologiques sous un processus de discrétisation]] * [[:media:2024_Naegel_Krähenbühl_Centerline.pdf|Skeletonization of tubular objects by discrete normal accumulation]] * [[:Media:PhD_Meyer_Faisan.pdf|Uncertainty quantification in automatic delineation for radiation therapy]] '''Positions for 2023 * [[:Media:PhDCE2023-ARC-EN-1p.pdf|Preoperative planning and intraoperative guidance for controlled articulated ARC needles]] '''FILLED'''. '''Positions for 2021 * [[:Media:PhDCE2020-IRCAD-EN-feb20.pdf|Assistance to trajectory planning and needle guiding for percutaneous surgery]] '''FILLED'''. '''Positions for 2020 * [[:Media:PhDCE2020-OptDL-EN.pdf|Optimization of trajectories of multiple surgical tools using deep learning for percutaneous surgery and SEEG]] '''FILLED'''. * [[:Media:PhDCE2020-Track-EN.pdf|Real-time replanning of trajectories for percutaneous surgery in deformable environment]] '''FILLED'''. * [[:Media:2020_DeepTopo_EN.pdf|Topological and relational guidance for modelling complex anatomical structures]] '''Positions for 2019''' * [[:Media:PhDCE2019-ENG.pdf|Optimization of trajectories for the simultaneous placement of multiple surgical tools]] * [[:Media:2019-These-DeepMorpho-en.pdf|Connected operators, hierarchical representations and deep learning.]] * [[:Media:2019-These-Schultz_Naegel-en.pdf| Deep learning for segmentation of FIB/SEM images for the diagnosis of chronic lymphocytic leukemia.]] '''Positions for 2017''' * [[:Media:2017sujetgeodisEng.pdf|Measurement theory and robust estimators in discrete geometry]] [[fr:Thèse]] d25e93f5284783b213f6a4aada21eac84824efc9 0 12 1222 1196 2023-11-09T13:17:58Z Faisan 27 wikitext text/x-wiki == Internship available for 2024 == {| class="wikitable sortable" | lien || 6 mois || Master 2 / PFE ingénieur || statut |- | [https://images.icube.unistra.fr/index.php/Fichier:2024_M2_projection_cloud.pdf Nuages de projections : nouvelle méthode d'apprentissage profond pour la classification et la reconstruction] || 6 mois || Master 2 / PFE ingénieur || '''disponible''' |- |- | [https://images.icube.unistra.fr/index.php/Fichier:Stage_CryoEM2024-1.pdf Nuages de projections : Exploring Heterogeneous Reconstruction in Cryo-EM with deep learning approaches: A Study on Fmoc-FFY Tripeptide Nanofibers] || 6 mois || Master 2 / PFE ingénieur || '''disponible''' |- | [https://images.icube.unistra.fr/index.php/Stage2024-ICANS-M2-EvalContours-ENG.pdf Uncertainties associated with new AI systems for automatic contouring in radiotherapy] || 6 mois || Master 2 / PFE ingénieur || '''disponible''' |- |} == Internship available for 2023 == {| class="wikitable sortable" | [[:Media:2023-stage_ARC_needle.pdf| Curved trajectory planning for steerable needles with controlled stiffness]] || 6 months || MSc || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/11d/2023-Master-Internship-Replanning.pdf Real time replanning of tracked needles for computer-assisted percutaneous surgery ] || 6 months || MSc || '''available''' |- |} == Internship available for 2020 == {| class="wikitable sortable" |- | [[:Media:2020-MasterInternshipDataAugmentation-EN.pdf|Data augmentation for SEEG electrodes segmentation using deep learning]] || 6 months || MSc || '''filled''' |} == Internship available for 2019 == {| class="wikitable sortable" |- | [https://images.icube.unistra.fr/img_auth_namespace.php/8/8c/Sujet_Stage2019-CPS-Strasbourg_Deformation_DL_ICUBE.pdf Error estimation of deformable image registration using CNN] || 6 months || Master 2 / PFE ingénieur || '''filled''' |- | [https://images.icube.unistra.fr/img_auth_namespace.php/9/93/2019-MasterInternship_Replanning.pdf Real time replanning of trajectories for percutaneous surgery] || 6 months || MSc || '''filled''' |} == Past Internship records == [[InternshipRecord |list of past internship]] [[fr:Stage]] 1fdc0f488e00b37107b510b7ad53409325a4ac8f 0 151 1223 1181 2023-12-01T10:24:48Z Essert 69 wikitext text/x-wiki __NOEDITSECTION__ __NOTOC__ * Professor of Computer Science, PhD, Habil. [http://icube.unistra.fr ICube] Institute, [http://www.unistra.fr University of Strasbourg] ** in sabbatical at [http://www.inria.fr/ INRIA] in [http://www.irisa.fr/visages/ Visages] group of [http://www.irisa.fr IRISA] Lab in Rennes from 01/09/2008 - 30/08/2010 {| cellspacing="20" width="100%" | Caroline Essert ICube - UMR7357 Pôle API Office C227a 300 Bd Sébastien Brant - BP 10413 67412 Illkirch cedex &nbsp; Tel ICube : +33 (0)3 68 85 43 63 Fax ICube : +33 (0)3 68 85 44 45 e-mail : essert AT unistra.fr &nbsp; [http://bikinis.u-strasbg.fr/ Homepage] |align="right"|[[Image: CarolineEssertPortraitID.jpg|150px|right|Caroline Essert]] |} ==Research== * Geometric constraint solving ** Declarative expression of constraints ** Solution space browsing ** Interactive modification of constraints and navigation in solutions spaces * Application to surgical planning ** Formalization of surgical knowledge ** Computation of optimal trajectories ** Interactive navigation in surgical solutions spaces ** Multi-criteria optimization ** Simulation of interventions * Virtual Reality ** VR and haptic interfaces ** Assistance to surgical gestures ==Scientific Responsibilities== * President of the International MICCAI Society * Member of the Editorial Board, Computer Assisted Surgery Journal * Executive Board Member, ISCAS International Society * General Chair of MICCAI 2021 Strasbourg * Co-Program Chair of MICCAI 2019 Shenzhen * Member of the organization committee of CARS 2019 Rennes * Member of the Program Committee of MICCAI 2018 * PI for ICube, project WP3-FLI "ECHOPT" 2018-2019 * PI for ICube, project PHC Maimonide France-Israel "CRYOPLAN" 2016-2017 * PI for ICube, project IHU Haystack 2013-2015 * PI for ICube, project ANR Blanc ACouStiC (http://www.anr-acoustic.org) 2011-2014 * Co-organizer of the 35th international conference EuroGraphics 2014 Strasbourg * Member of the evaluation committee for ANR (National Research Agency) projects "Numerical Models" 2011 - 2013 * General Chair of MICCAI workshop DBSMC 2012 * General Chair of symposium "VR in Medicine and Surgery", VRIC 2010 conference, Laval Virtual ==Administrative Responsibilities== * Member of the National Council of Universities, Computer Science section, from 2017 to 2021 * Head of MSc in Computer Science from 2018 to 2021 * Head of Master of Engineering in Computer Science, Image, Virtual Reality, Interaction and Games since 2014 * Head of Bachelor 2nd year in Computer Science from 2005 to 2008 * Member of the council of LSIIT Lab from 2007 to 2009 ==Publications== On Google Scholar : [http://scholar.google.fr/citations?hl=fr&user=MOpg1OoAAAAJ&view_op=list_works Publications sur Google Scholar] On DBLP : [https://dblp.org/pers/hd/e/Essert:Caroline Publications sur DBLP] On ICube's website : [http://icube-publis.unistra.fr/?author=essert&title=&team=&national=&project=&year1=&year2=&=#hideMenu Publications sur le site ICube] [[fr:Caroline Essert]] b51dbea7251798adbd278bf44a407007f7522b12 0 157 1224 1189 2023-12-12T08:57:29Z Cyril.meyer 81 wikitext text/x-wiki <big>'''Temporary teaching and research associate (ATER)'''</big><br> [http://images.icube.unistra.fr/fr/index.php/Cyril_Meyer Version française] <table width=100%> <tr> <td> {| class="wikitable" |- | style="padding-left: 10px; padding-right: 50px;" | ICube - IMAGeS<br> 300 Bd Sébastien Brant<br> BP 10413<br> 67412 Illkirch CEDEX - France<br> Office : '''C224'''<br> Email : '''cymeyer@unistra.fr'''<br> [https://cyrilmeyer.eu/ website]<br> [https://scholar.google.com/citations?user=8ReKQ7YAAAAJ Google Scholar] |} </td> <td align=right> [[File:CYRIL MEYER 2019.jpg|frameless|center]] </td> </tr> </table> == Supervisors == * [[Benoît Naegel|Benoît Naegel]] * [https://www.igbmc.fr/igbmc/missions/annuaire/patrick-schultz Patrick Schultz] * [[Etienne_Baudrier|Etienne Baudrier]] == Teaching == * Development of web interfaces (W11) : BUT Computer Science S1 * Introduction to databases and SQL (D11) : BUT Computer Science S1 * Numerical methods (M21) : BUT Computer Science S2 * Numerical tools for descriptive statistics (M22) : BUT Computer Science S2 * Object-oriented programming (P21) : BUT Computer Science S2 * Effective Development (P31) : BUT Computer Science S3 == Publications == <iframe key="papr" path="?author=Cyril+Meyer&title=&team=&national=&project=&year1=&year2=&=#hideMenu" /> d35ea71073d41fc51bba8cd7c1b3897ae3b2dd7b 0 3 1225 1209 2024-03-18T09:46:26Z B.naegel 83 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Head: Pr [[Benoît Naegel]] <br /> * '''Co-Head: [[Sylvain Faisan]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * Methods in Bayesian Inference and Statistical Analysis * Discrete Geometry and Mathematical Morphology * Biomedical image processing * Probabilistic analysis for space & Earth observations IMAGeS is involved in the following transversal research programs of ICube: L'équipe IMAGeS participe activement aux axes transverses d'ICube : * [https://dsai.icube.unistra.fr/index.php/Accueil Sciences des Données et Intelligence Artificielle (SDIA)] * [https://irmc.icube.unistra.fr/index.php/Accueil Imagerie et Robotique Médicale et Chirurgicale (IRMC)] * [https://inca.icube.unistra.fr/index.php/Accueil Instrumentation, Capteurs et Analyse (InCA)] [[fr:Accueil]] 7422af4b6ef91615c8e7fcb1c39f0a2625aa5b44 1226 1225 2024-03-18T09:46:42Z B.naegel 83 wikitext text/x-wiki [[File:MIV-image2.jpg|frameless|center|600px]]<br /> * '''Co-Head: [[Benoît Naegel]] <br /> * '''Co-Head: [[Sylvain Faisan]]'''<br /> <br /> IMAGeS resarches focus on the processing of multimodal, multitemporal 2D/3D images, computer vision and the interactions between computer vision and computer graphics. Approaches include statistical analysis and modeling, bayesian inference, discrete geometry and mathematical morphology. IMAGeS adresses the following subjects: * Methods in Bayesian Inference and Statistical Analysis * Discrete Geometry and Mathematical Morphology * Biomedical image processing * Probabilistic analysis for space & Earth observations IMAGeS is involved in the following transversal research programs of ICube: L'équipe IMAGeS participe activement aux axes transverses d'ICube : * [https://dsai.icube.unistra.fr/index.php/Accueil Sciences des Données et Intelligence Artificielle (SDIA)] * [https://irmc.icube.unistra.fr/index.php/Accueil Imagerie et Robotique Médicale et Chirurgicale (IRMC)] * [https://inca.icube.unistra.fr/index.php/Accueil Instrumentation, Capteurs et Analyse (InCA)] [[fr:Accueil]] e00dddce059a69ee41eaed99400e1c875dfb0edf